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Document 42018X1706

Regulation No 90 of the Economic Commission for Europe of the United Nations (UN/ECE) — Uniform provisions concerning the approval of replacement brake lining assemblies, drum-brake linings and discs and drums for power-driven vehicles and their trailers [2018/1706]

OJ L 290, 16.11.2018, p. 54–161 (BG, ES, CS, DA, DE, ET, EL, EN, FR, HR, IT, LV, LT, HU, MT, NL, PL, PT, RO, SK, SL, FI, SV)

Legal status of the document In force

ELI: http://data.europa.eu/eli/reg/2018/1706/oj

16.11.2018   

EN

Official Journal of the European Union

L 290/54


Only the original UN/ECE texts have legal effect under international public law. The status and date of entry into force of this Regulation should be checked in the latest version of the UN/ECE status document TRANS/WP.29/343, available at:

http://www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29fdocstts.html

Regulation No 90 of the Economic Commission for Europe of the United Nations (UN/ECE) — Uniform provisions concerning the approval of replacement brake lining assemblies, drum-brake linings and discs and drums for power-driven vehicles and their trailers [2018/1706]

Incorporating all valid text up to:

Supplement 4 to the 02 series of amendments — Date of entry into force: 16 October 2018

CONTENTS

1.

Scope

2.

Definitions

3.

Application for approval

4.

Approval

5.

Specifications and tests

6.

Packaging and marking

7.

Modifications and extension of approval of replacement parts

8.

Conformity of production

9.

Penalties for non-conformity of production

10.

Production definitively discontinued

11.

Names and addresses of Technical Services responsible for conducting approval tests, and of Type Approval Authorities

12.

Transitional provisions

ANNEXES

1A

Communication concerning the approval or extension or refusal or withdrawal of approval or production definitively discontinued of a replacement brake lining assembly or replacement drum brake lining pursuant to Regulation No 90

1B

Communication concerning the approval or extension or refusal or withdrawal of approval or production definitively discontinued of a replacement brake disc or a replacement brake drum pursuant to Regulation No 90

2

Arrangements of the approval mark and approval data

3

Requirements for replacement brake lining assemblies for vehicles of categories M1, M2 and N1

4

Requirements for replacement brake lining assemblies and drum brake linings for vehicles of categories M3, N2 and N3

5

Requirements for replacement brake lining assemblies for vehicles of categories O1 and O2

6

Requirements for replacement brake lining assemblies and drum brake linings for vehicles of categories O3 and O4

7

Requirements for replacement brake lining assemblies for vehicles of category L

7a

Criteria to define groups of brake lining assembly for vehicles of category L

8

Technical prescriptions for replacement brake lining assemblies intended for the use in separate parking brake systems being independent of the vehicle service brake system

9

Special additional procedures for conformity of production

10

Illustrations

11

Requirements for replacement brake discs or brake drums for vehicles of categories M and N

12

Requirements for replacement brake discs/drums for vehicles of category O

13

Model test report for a replacement brake disc/drum

14

Requirements for replacement brake discs for vehicles of categories L1, L2, L3, L4 and L5

15

Criteria for groups of discs for vehicles of categories L1, L2, L3, L4 and L5

1.   SCOPE

1.1.   This Regulation applies to the basic braking function of the following replacement parts (1) (2):

1.1.1.

Replacement brake lining assemblies intended for use in friction brakes forming part of a braking system of vehicles of category M, N, L and O which have a type approval in accordance with Regulation No 13, 13-H or 78.

1.1.2.

Replacement drum brake linings designed to be riveted to a brake shoe for fitment to and use on vehicles of category M3, N2, N3, O3 or O4 having a type approval in accordance with Regulation No 13.

1.1.3.

The replacement brake lining assemblies used for separate parking brake systems being independent of the vehicle service brake system will be subject only to the technical prescriptions defined in Annex 8 of this Regulation.

1.1.4.

Replacement brake drums and discs intended for use in friction brakes forming part of a braking system of vehicles of category M, N and O which have a type approval in accordance with Regulation No 13 or Regulation No 13-H.

1.1.5.

Replacement brake discs intended for use in friction brakes forming part of a braking system of vehicles of categories L1, L2, L3, L4 and L5, which have a type approval in accordance with Regulation No 78.

1.2.   Original brake discs, brake drums, brake lining assemblies and drum brake linings fitted at time of manufacturing of the vehicle and original replacement brake discs, brake drums, brake lining assemblies and drum brake linings intended for the servicing of the vehicle are not subject to this Regulation.

1.3.   This Regulation does not apply to ‘Special parts’, as defined in paragraph 2.3.4.

2.   DEFINITIONS

2.1.   General definitions

2.1.1.   ‘Manufacturer’ means the organization which can assume technical responsibility for the brake lining assemblies or drum brake linings or brake drums and discs and can demonstrate that it possesses the necessary means to achieve conformity of production.

2.1.2.   ‘Replacement part’ means either a replacement brake lining assembly type, a replacement drum brake lining type, a replacement drum brake lining, a replacement brake drum or a replacement brake disc.

2.1.3.   ‘Original part’ means either an original brake lining, an original brake lining assembly, an original drum brake lining, an original brake drum or an original brake disc.

2.2.   Definitions regarding the approval of a replacement brake lining assembly type, a replacement drum brake lining type or a replacement drum brake lining.

2.2.1.   ‘Braking system’ has the meaning assigned in Regulation No 13, paragraph 2.3, or Regulation No 13-H, paragraph 2.3, or Regulation No 78, paragraph 2.5.

2.2.2.   ‘Friction brake’ means the part of a braking system in which the forces opposing the movement of a vehicle are developed by friction between a brake lining and a wheel disc or drum moving relatively to each other.

2.2.3.   ‘Brake lining assembly’ means a component of a friction brake which is pressed against a drum or disc, respectively, to produce the friction force.

2.2.3.1.   ‘Shoe assembly’ means a brake lining assembly of a drum brake;

2.2.3.1.1.   ‘Shoe’ means a component of a shoe assembly which carries the brake lining;

2.2.3.2.   ‘Pad assembly’ means a brake lining assembly of a disc brake;

2.2.3.2.1.   ‘Backplate’ means a component of a pad assembly which carries the brake lining;

2.2.3.3.   ‘Brake lining’ means the friction material component with the shape and final dimension to be fixed on to the shoe or backplate;

2.2.3.4.   ‘Drum brake lining’ means a brake lining for a drum brake.

2.2.3.5.   ‘Friction material’ means the product of a specified mixture of materials and processes which together determine the characteristics of a brake lining;

2.2.4.   ‘Brake lining type’ means a category of brake linings which do not differ in friction material characteristics.

2.2.5.   ‘Brake lining assembly type’ means wheel sets of brake lining assemblies which do not differ in brake lining type, dimension or functional characteristics.

2.2.6.   ‘Drum brake lining type’ means wheel sets of brake lining components which after fitment to the shoes do not differ in brake lining type, dimensions or functional characteristics.

2.2.7.   ‘Original brake lining’ means a brake lining type referenced in the vehicle type approval documentation, Regulation No 13, Annex 2, paragraph 8.1.1, Regulation No 13-H, Annex 1, paragraph 7.1 (3) or Regulation No 78, Annex 1, paragraph 5.4.

2.2.8.   ‘Original brake lining assembly’ means a brake lining assembly conforming to the data attached to a vehicle type approval documentation;

2.2.9.   ‘Replacement brake lining assembly’ means a brake lining assembly of a type approved under this Regulation as a suitable service replacement for an original brake lining assembly.

2.2.10.   ‘Original drum brake lining’ means a drum brake lining conforming to the data attached to a vehicle type approval documentation.

2.2.11.   ‘Replacement drum brake lining’ means a drum brake lining of a type approved under this Regulation as a suitable service replacement when fitted to a shoe for an original drum brake lining.

2.2.12.   ‘Parking brake lining assembly’ means a pad assembly or shoe assembly belonging to a parking brake system separate and independent from the service brake system.

2.2.13.   ‘Identical brake lining assembly’ is a replacement brake lining assembly identical to the brake lining assembly supplied and fitted as original equipment and included in the vehicle type approval to Regulation No 13 or Regulation No 13-H with the exception of the vehicle/brake assembly manufacturers mark which is omitted.

2.2.14.   ‘Identical drum brake lining’ is a replacement drum brake lining identical to the drum brake lining supplied and fitted as original equipment and included in the vehicle type approval to Regulation No 13 or Regulation No 13-H with the exception of the vehicle/brake assembly manufacturers mark which is omitted.

2.3.   Definitions regarding the approval of a replacement brake drum or a replacement brake disc.

2.3.1.   ‘Original brake disc/brake drum’

2.3.1.1.   In the case of motor vehicles, is a brake disc/drum covered by the vehicle braking system type approval according to Regulation No 13, 13-H or 78.

2.3.1.2.   In the case of trailers:

(a)

Is a brake disc/drum covered by the vehicle braking system type approval according to Regulation No 13;

(b)

Is a brake disc/drum which is part of a brake for which the axle manufacturer owns a test report according to Annex 11 of Regulation No 13.

2.3.2.   ‘Identification code’ identifies the brake discs or brake drums covered by the braking system approval according to Regulations Nos 13 and 13-H. It contains at least the manufacturer's trade name or trademark and an identification number.

The vehicle manufacturer shall provide on request of the technical service and/or approval authority the necessary information, which makes the link between the braking system type approval and the corresponding identification code.

2.3.3.   Replacement parts

2.3.3.1.   Original replacement brake discs and brake drums

2.3.3.1.1.   In the case of vehicle categories M, N and O: original brake discs/brake drums intended for servicing the vehicle and carrying an identification code as defined in paragraph 2.3.2 affixed in such a way as to be indelible and clearly legible.

2.3.3.1.2.   In the case of vehicle categories L1, L2, L3, L4 and L5: original brake discs/brake drums intended for servicing the vehicle.

2.3.3.2.   Identical brake discs

2.3.3.2.1.   In the case of vehicle categories M, N and O: a replacement brake disc which is chemically and physically identical in every respect with the exception of the vehicle manufacturer mark, which is absent, to the original brake disc.

2.3.3.2.2.   In the case of vehicle categories L1, L2, L3, L4 and L5: a replacement brake disc which is chemically and physically identical in every respect.

2.3.3.3.   ‘Identical brake drum’ is a replacement brake drum identical to the brake drum supplied and fitted as original equipment and included in the vehicle type approval to Regulation No 13 or Regulation No 13-H with the exception of the vehicle/brake assembly manufacturers mark and the identification code which are omitted.

2.3.3.4.   Equivalent brake discs and brake drums

2.3.3.4.1.   ‘Equivalent brake discs for categories M, N and O’ is a replacement brake disc which is identical to the original brake disc in respect to all dimensions, geometric features and basic design and is also from the same material subgroup as the original brake disc as defined in paragraph 5.3.3.2.

2.3.3.4.2.   ‘Equivalent brake discs for categories L1, L2, L3, L4 and L5’ are replacement brake discs which are identical to the original brake disc in respect to all dimensions, geometric features and basic design and is also from the same following materials:

(a)

Braking surface: one of materials listed in paragraph 5.3.3.2.2;

(b)

Bell and braking ring fasteners: same materials and mechanical properties of original disc.

2.3.3.4.3.   ‘Equivalent brake drum’ is a replacement brake drum which is identical to the original brake drum in respect to all dimensions, geometric features and basic design and is also from the same material sub-group as the original brake drum as defined in paragraph 5.3.3.2.

2.3.3.5.   Interchangeable brake discs and brake drums

2.3.3.5.1.   ‘Interchangeable brake disc’ is a replacement brake disc which has the same interface dimensions as the original brake disc but may differ from the original brake disc in terms of its design, material composition and mechanical properties.

2.3.3.5.2.   ‘Interchangeable brake drum’ is a replacement brake drum which has the same interface dimensions as the original brake drum but may differ from the original brake drum in terms of its design, material composition and mechanical properties.

2.3.4.   ‘Special brake disc/drum’ means a replacement brake disc/drum not covered by paragraphs 2.3.1 to 2.3.3.

2.3.5.   ‘Functional dimensions’: all the measurements that are relevant with regard to the fitting and functioning of the components of the braking system (see paragraph 5.3.7.1 and Annex 10).

2.3.6.   ‘Type of brake disc/drum’: brake discs or drums having the same basic design and material group in accordance with the classification criteria pursuant to paragraphs 5.3.5.1 or 5.3.5.2 as appropriate.

2.3.7.   ‘Test group’: type of brake discs/drums having the same characteristics pursuant to paragraph 5.3.6.

2.3.8.   ‘Variant’: individual brake disc/drum within a given test group.

2.3.9.   ‘Material’: chemical composition and mechanical properties as per paragraph 3.4.1.2.

2.3.10.   ‘Material group’: e.g. grey cast iron, steel, aluminium, etc.

2.3.11.   ‘Material sub-group’: one of the sub-group defined in paragraph 5.3.3.2.

2.3.12.   ‘Minimum thickness’: the thickness of the brake disc is the point at which replacement becomes necessary.

2.3.13.   ‘Maximum inside diameter’: the maximum inside diameter of the brake drum is the point at which replacement becomes necessary.

3.   APPLICATION FOR APPROVAL

3.1.   An application for approval of a replacement part for (a) specific vehicle type(s) shall be submitted by the manufacturer of the replacement part or his duly accredited representative.

3.2.   An application may be submitted by the holder of (a) vehicle type approval(s) to Regulation No 13 or 13-H or 78 in respect of replacement part conforming to the type recorded in the vehicle type approval(s) documentation.

3.3.   In the case of an application regarding the approval of a replacement brake lining assembly type, a replacement drum brake lining type or a replacement drum brake lining:

3.3.1.

An application for approval shall be accompanied, in triplicate, by a description of the replacement brake lining assembly or replacement drum brake lining with regard to the items specified in Annex 1 to this Regulation, and by the following particulars:

3.3.1.1.

Diagrams showing functional dimensions of the replacement brake lining assembly or replacement drum brake lining;

3.3.1.2.

An indication of the positions of the replacement brake lining assembly or replacement drum brake lining on the vehicles for which approval to fit is sought.

3.3.1.3.

In the case of brake lining assemblies for vehicles of category L, the list of brake lining assemblies belonging to the same group defined according to Annex 7a. This list shall indicate for each brake lining assembly: name of brake lining assembly manufacturer, the brake lining assembly manufacturer's code, the friction material area (cm2).

3.3.2.

Brake lining assemblies or drum brake linings of the type for which approval is sought shall be made available in sufficient quantity to perform the approval tests.

3.3.3.

The applicant shall agree with and make available to the technical service responsible for conducting approval tests the suitable representative vehicle(s) and/or brake(s).

3.3.4.

The Competent Authority shall verify the existence of satisfactory arrangements for ensuring effective control of the conformity of production before type approval is granted.

3.3.4.1.   The applicant shall submit values for friction behaviour in accordance with Annex 9, Part A, paragraph 2.4.1 or 3.4.1 respectively of this Regulation.

3.4.   In the case of an application regarding the approval of a replacement brake drum or a replacement brake disc.

3.4.1.   An application for approval shall be accompanied, in triplicate, by a description of replacement brake drum or a replacement brake disc with regard to the items specified in Annex 1B to this Regulation, and by the following particulars:

3.4.1.1.   Disc or drum drawing(s) including the dimensions of the features mentioned in paragraph 5.3.7.1, together with tolerances, and any accompanying accessories:

(a)

Location and nature of the marking pursuant to paragraph 6.2.2 — dimensions in mm;

(b)

Weight in grams;

(c)

Material (for one-piece discs) or material for composed and floating disc of categories L1, L2, L3, L4 and L5.

3.4.1.2.   Component description

The manufacturer shall provide a component description containing at least the following information:

(a)

The manufacturer of the unmachined part;

(b)

A description of the process of manufacture of the unmachined part;

(c)

Proof of the reliability of the process (e.g. freedom from cracks and cavities, dimensions);

(d)

Material composition, specifically:

(i)

Chemical composition;

(ii)

Microstructure;

(iii)

Mechanical properties for cast iron brake discs and brake drums:

(a)

Brinell hardness pursuant to ISO 6506-1:2005;

(b)

Tensile strength in accordance with ISO 6892:1998;

(iv)

Mechanical properties for martensitic stainless steel brake disc:

Rockwell C hardness pursuant to ISO 6508-1;

(e)

Corrosion or surface protection;

(f)

Description of the balancing measures, maximum permissible balance error;

(g)

Amount of wear allowed (minimum thickness in the case of brake discs or the maximum internal diameter in the case of brake drums).

The applicant shall submit the information and specifications outlined in Annex 9, Part B, paragraph 2.5 for cast iron discs and Annex 9, Part C, paragraph 2.5 for martensitic stainless steel discs, of this Regulation.

3.4.2.   Conformity of production

The competent authority shall verify the existence of satisfactory arrangements for ensuring effective control of the conformity of production before type approval is granted.

3.4.2.1.   The applicant shall submit the documentation in accordance with Annex 9, Part B and Part C, paragraph 2 of this Regulation.

3.4.3.   Sample quantities and usage

3.4.3.1.   A minimum number of disc or drum samples — of the design for which approval is requested — shall be provided, as shown in the following tables.

The tables also show the recommended use of the samples.

Item No

Check/Test

Sample number for brake discs for vehicles of categories M, N and O

Remarks

1

2

3

4

5

6

1

Geometric check

Paragraphs 5.3.3.1, 5.3.4.1

x

x

x

x

x

x

 

2

Material check

Paragraphs 5.3.3.2

x

x

 

 

 

 

 

3

Balancing provisions check

Paragraph 5.3.7.2

 

 

x

x

x

x

 

4

Wear condition marking check

Paragraph 5.3.7.3

 

 

x

x

x

x

 

5

Integrity test — thermal fatigue

Paragraphs 4.1.1, 4.2.1 of Annex 11, 4.1.1, 4.2.1 of Annex 12

 

 

 

x

x

 

 

6

Integrity test — high load test

Paragraphs 4.1.2, 4.2.2 of Annex 11, and paragraphs 4.1.2, 4.2.2 of Annex 12

 

 

x

 

 

 

 

7

Service brake vehicle performance test

Paragraph 2.2 of Annex 11, Paragraph 2.2 of Annex 12

 

 

 

 

 

Pair of discs

Either front or rear axle

8

Parking brake vehicle performance test

Paragraph 2.3 of Annex 11, Paragraph 2.3 of Annex 12

 

 

 

 

 

Pair of discs

If applicable

9

Service brake dynamometer performance test

Paragraph 3.3 of Annex 11, paragraph 3.3 of Annex 12

 

 

 

 

 

x

Alternative to vehicle test


Item No

Check/Test

Sample number for brake discs for vehicles of categories L1, L2, L3, L4 and L5

Remarks

1

2

3

4

5

1

Geometric check

Paragraphs 5.3.3.1, 5.3.4.1

x

x

x

x

x

 

2

Wear condition marking check

Paragraph 5.3.7.3

x

x

x

x

x

 

3

Material and hardness braking surface

Paragraphs 5.3.3.2

x

 

 

 

 

 

4

Bell and fasteners material check

Paragraphs 2.4 and 2.5 of Annex 15

x

 

 

 

 

 

5

Resistance to static torque test

Paragraph 2 of Annex 14

 

x

x

 

 

 

6

Service brake vehicle performance

Paragraphs 3.2 of Annex 14

 

 

 

x

 

 

7

Thermal fatigue

Paragraph 5.1 of Annex 14

 

 

 

 

x

 

8

Service brake dynamometer performance

Paragraph 4.3 of Annex 14

 

 

 

 

 

Alternative to vehicle test

3.4.3.2.   Each disc and drum, other than those using geometric and material checks, shall be accompanied by the appropriate number of the suitable brake lining assemblies which have an approval to Regulation No 13, 13-H or 90.

3.4.3.3.   In the case where a comparison with the original brake disc or brake drum is required, an axle set of original brake discs or original brake drum, as applicable, shall be provided.

3.4.3.4.   Where an equivalent replacement disc/drum approval is sought, two original brake disc/drum or original replacement brake disc/drum samples shall be provided for dimensional and material comparisons.

3.4.3.5.   Where an interchangeable replacement disc/drum approval is sought, two original brake disc/drum or original replacement brake disc/drum samples shall be provided for dimensional comparison.

4.   APPROVAL

4.1.   If the replacement part submitted for approval pursuant to this Regulation meet the requirements of paragraph 5 below, approval of the replacement part shall be granted.

4.1.1.   In the case of replacement brake lining assemblies for vehicles of category L with a combined braking system in the meaning of paragraph 2.9 of Regulation No 78, the approval must be restricted to the brake lining assembly combination(s) on the axles of the vehicle having been tested according to Annex 7 of this Regulation.

4.2.   To each replacement part approved there shall be assigned an approval number comprising four groups of digits:

4.2.1.

The first two digits (at present 02 for the Regulation in its 02 series of amendments) shall indicate the series of amendments incorporating the most recent major technical amendments made to the Regulation at the time of issue of the approval.

4.2.2.

The following single digit shall indicate the category of the replacement part as follows:

A

Replacement brake lining assembly

B

Replacement drum brake lining

C

Replacement brake disc

D

Replacement brake drum

4.2.3.

The next series of digits shall indicate the manufacture and the type of the brake lining, the type of disc or the type of drum.

The digital suffix shall indicate:

(a)

The shoe or back plate or specific dimension in the case of drum brake linings;

(b)

The Test Group in the case of a replacement disc or replacement drum.

The variants approved as a Test Group shall be listed as an appendix to the communication document.

Image

_

_

_

_

_

_

_

/

_

_

_

_

Digital suffix indicates the Test Group/shoe/back plate/specific dimension of the replacement part

Digital series indicates (manufacturer and) the type of the replacement part

1 digit (A to D) indicates the category of the replacement part

2 digits indicate series of amendment (01 to 99)

Example:

Image

0

2

C

0

03

5

9

/

07

2

4

8

Test Group No 07248

Type No 00359

Brake disc

02 series of amendments

4.2.4.

In the case of brake lining assemblies for vehicles of category L, brake lining assemblies belonging to the same group defined according to the criteria of Annex 7a, shall be assigned the same approval number of the one assigned to the representative brake lining assembly.

4.3.   The same Contracting Party may not assign the same number to another replacement part. The same type approval number may cover the use of that replacement part on a number of differing vehicle types.

4.4.   Notice of approval or of extension or refusal of approval or withdrawal of approval or production definitively discontinued of a replacement part pursuant to this Regulation shall be communicated to the Parties to the 1958 Agreement which apply this Regulation by means of a form conforming to the model in Annex 1 to this Regulation.

4.5.   There shall be affixed, conspicuously and in a readily accessible place, to every replacement part approved under this Regulation, an international approval mark consisting of:

4.5.1.

A circle surrounding the letter ‘E’ followed by the distinguishing number of the country which has granted approval (4);

4.5.2.

The number of this Regulation, followed by the letter ‘R’, a dash and the approval number to the right of the circle prescribed in paragraph 4.5.1.

4.6.   The approval mark referred to in paragraph 4.5 above shall be clearly legible and be indelible.

4.7.   Annex 2 to this Regulation gives examples of arrangements of the approval mark and approval data referred to above and in paragraph 6.1.5 below.

5.   SPECIFICATIONS AND TESTS

5.1.   General

A replacement part shall be so designed and constructed that, when substituted for the part originally fitted to a vehicle, the braking efficiency of that vehicle accords with that of the approved vehicle type.

Specifically:

(a)

A replacement part for a vehicle type approved prior to Regulation No 13, 09 series of amendments, or the original version of Regulation No 13-H or Regulation No 78, 01 series of amendments, shall satisfy as a minimum the appropriate abovementioned Regulation level;

(b)

A replacement part shall display performance characteristics similar to that of the original part it is intended to replace;

(c)

A replacement part must possess adequate mechanical characteristics;

(d)

Brake linings shall not contain asbestos;

(e)

A replacement brake disc/drum shall exhibit sufficient deformation resistance under temperature;

(f)

The minimum thickness of the brake disc shall not be less than the minimum thickness of the original brake disc as specified by the vehicle manufacturer;

(g)

The maximum permissible inside diameter of the brake drum shall not be more than the maximum permissible inside diameter of the original brake drum specified by the vehicle manufacturer.

5.1.1.   Replacement brake lining assemblies or replacement drum brake linings conforming to the type specified in vehicle type approval documentation to Regulation No 13 or to Regulation No 13-H or Regulation No 78 are deemed to satisfy the requirements of paragraph 5 of this Regulation.

5.1.2.   Replacement discs and replacement drums conforming to the identification code specified in vehicle type approval documentation to Regulation No 13 or to Regulation No 13-H and replacement discs conforming to the type specified in vehicle type approval documentation to Regulation No 78, are deemed to satisfy the requirements of paragraph 5 of this Regulation.

5.1.3.   Identical replacement brake lining assemblies and identical drum brake linings do not need to be tested according to the requirements of paragraph 5.2.1 below, provided the following conditions are fulfilled:

(a)

That the applicant for approval demonstrates that they produce and supplies the submitted brake lining assemblies or drum brake linings to the vehicle or brake manufacturer as original equipment for the specific vehicle models, axles and brakes mentioned under Annex 1A item 6, for which approval is being sought.

(b)

That the Technical Service and/or Type Approval Authority verify that the applicant is producing and supplying the relevant part mentioned in Appendix 1 to Annex 2 to Regulation No 13 approval or the Appendix to Annex 1 to Regulation No 13-H approval, in paragraph related to ‘Make and type of brake linings’ (5).

(c)

The applicant for approval continues to produce the original and identical parts:

(i)

From the same raw material mixture;

(ii)

With the same manufacturing process;

(iii)

On the same production line;

(iv)

With the same quality assurance system; and

(v)

With the same results of the conformity of production tests referenced in paragraph 8.4.1 of the Regulation, as for the original parts.

The demonstration of compliance to requirements specified in this paragraph shall be supported by an onsite audit, conducted by the Technical Services in charge of approval tests. To support the audit the manufacturer shall provide access to the process flow chart and control plan.

5.2.   Requirements regarding the approval of a replacement brake lining assembly type, a replacement drum brake lining type or a replacement drum brake lining

5.2.1.   Performance requirements

5.2.1.1.   Replacement brake lining assemblies for vehicles of categories M1, M2 and N1

At least one set of replacement brake lining assemblies, representing the type of lining to be approved, shall be installed and tested in at least one vehicle which is representative of the vehicle type for which approval is sought, according to the prescriptions of Annex 3 and shall satisfy the requirements stated in this annex. The representative vehicle(s) shall be selected from among the application range using a worst case analysis (6). For speed sensitivity and cold performance equivalence, one of the two methods described in Annex 3 shall be used.

5.2.1.2.   Replacement brake lining assemblies and replacement drum brake linings for vehicles of categories M3, N2 and N3

At least one set of replacement brake lining assemblies or replacement drum brake linings, representing the type of lining to be approved, shall be installed and tested in at least one vehicle or a brake which is representative of the vehicle type for which approval is sought, according to the prescriptions of Annex 4, using one of the two methods described in paragraph 1 (vehicle test) or in paragraph 2 (inertia dynamometer test) and shall satisfy the requirements stated in this annex. The representative vehicle(s) or brake(s) shall be selected from among the application range using a worst case analysis (7).

5.2.1.3.   Replacement brake lining assemblies for vehicles of categories O1 and O2

Replacement brake lining assemblies shall be tested according to the prescriptions of Annex 5 and shall satisfy the requirements stated in this annex.

5.2.1.4.   Replacement brake lining assemblies and replacement drum brake linings for vehicles of categories O3 and O4

Replacement brake lining assemblies and replacement drum brake linings shall be tested according to the prescriptions of Annex 6 and shall satisfy the requirements stated in this annex. For the tests, one of the three methods described in paragraph 3 of Appendix 2 to Annex 11 of Regulation No 13 shall be used.

5.2.1.5.   Replacement brake lining assemblies for vehicles of category L

It is allowed the verification of a brake lining assembly deemed to be representative of a group of brake lining assemblies, grouped according to the criteria defined in Annex 7a.

The representative brake lining assembly is deemed to identify the most severe application.

Results obtained with that representative brake lining assembly are considered valid for all the brake lining assemblies belonging to the same group defined according to the grouping criteria as from Annex 7a.

At least one set of the chosen replacement brake lining assemblies, representing the type of lining to be approved, shall be installed and tested in at least one vehicle which is representative of the vehicle type for which approval is sought, according to the prescriptions of Annex 7 and shall satisfy the requirements stated in this annex. The representative vehicle(s) shall be selected from among the application range using a worst case analysis (8).

5.2.2.   Mechanical characteristics

5.2.2.1.   Replacement brake lining assemblies for vehicles of categories M1, M2, N1, O1, O2, and L

5.2.2.1.1.   Replacement brake lining assemblies of the type for which approval is requested shall be tested for shear strength according to Standard either ISO 6312:1981 or ISO 6312:2001.

The minimum acceptable shear strength is 250 N/cm2 for pad assemblies and 100 N/cm2 for shoe assemblies.

5.2.2.1.2.   Replacement brake lining assemblies of the type for which approval is requested shall be tested for compressibility according to standard either ISO 6310:1981, ISO 6310:2001 or ISO 6310:2009.

The compressibility values shall not exceed 2 per cent at ambient temperature and 5 per cent at 400 °C for pad assemblies and 2 per cent at ambient temperature and 4 per cent at 200 °C for shoe assemblies. This requirement does not apply to parking brake lining assemblies.

5.2.2.2.   Replacement brake lining assemblies and replacement drum brake linings for vehicles of categories M3, N2, N3, O3, and O4

5.2.2.2.1.   Shear strength

This test applies only to disc brake pad assemblies.

Replacement brake lining assemblies of the type for which approval is requested shall be tested for shear strength according to Standard ISO 6312:1981 or ISO 6312:2001. Brake lining assemblies may by divided into two or three parts to match the test machine's capability.

The minimum acceptable shear strength is 250 N/cm2.

5.2.2.2.2.   Compressibility

Replacement brake lining assemblies and replacement drum brake linings of the type for which approval is requested shall be tested for compressibility according to standard either ISO 6310:1981, ISO 6310:2001 or ISO 6310:2009. Flat specimens according to sample type I may be used.

The compressibility values shall not exceed 2 per cent at ambient temperature and 5 per cent at 400 °C for pad assemblies and 2 per cent at ambient temperature and 4 per cent at 200 °C for shoe assemblies and drum brake linings.

5.2.2.2.3.   Material hardness (9)

This requirement applies to drum brake lining assemblies and drum brake linings.

Replacement brake lining assemblies or replacement drum brake linings of the type for which approval is requested shall be tested for hardness according to Standard ISO 2039-2:1987.

The hardness figure for the friction material at the rubbing surface shall be the mean value out of five sample linings from different production batches (if available) by taking five measurements at different places of each brake lining.

5.3.   Technical requirements regarding the approval of a replacement brake drum or a replacement brake disc

All replacement parts have to be separated in 4 groups:

(a)

Original replacement brake disc/drum;

(b)

Identical brake disc/drum;

(c)

Equivalent disc/drum;

(d)

Interchangeable disc/drum.

Depending on its group, the replacement brake disc or drum has to pass the following tests:

 

Resistance to static torque (only for vehicle categories L1, L2, L3, L4 and L5)

Performance tests according to Regulations Nos 13/13-H/78 (Type 0, I, II, etc.)

Comparison test with dynamic frictional properties of the original part

Integrity tests (high load and thermal fatigue)

Original replacement parts

Disc not subjected to this regulation

Identical parts

No

No

No

No

Equivalent parts

No

No

No

Dynamometer test

Interchangeable parts

Static bench test

Vehicle test or alternative dynamometer test

Vehicle test or alternative dynamometer test

Dynamometer test

The test requirements for brake discs and drums for vehicles of categories M and N are detailed in Annex 11.

The test requirements for brake discs and drums for vehicles of category O are detailed in Annex 12.

The test requirements for brake discs for vehicles of categories L1, L2, L3, L4 and L5 are detailed in Annex 14.

5.3.1.   Original replacement brake discs/drums

5.3.1.1.   Original replacement brake discs/drums are excluded from the scope of this Regulation provided they carry an identification code as defined in paragraph 2.3.2 affixed in such a way as to be indelible and clearly legible.

5.3.2.   Identical brake discs/drums

5.3.2.1.   The applicant for approval shall demonstrate to the Technical Service and/or approval authority that they produce and supply the submitted brake discs or drums to the vehicle manufacturer as original equipment for the specific model/models, axles, mentioned under Annex 1B item 4 for which approval is being sought. This demonstration shall include verifiable evidence that the brake discs or drums are produced under the same production and quality assurance systems as for the original parts pursuant to paragraph 2.3.1 of the Regulation. Specifically it is required that the applicant for approval continues to produce the original and identical parts:

(a)

From the same raw material, composition and microstructure;

(b)

With the same manufacturing process;

(c)

On the same production line;

(d)

With the same quality assurance system; and

(e)

With the same results of the conformity of production tests referenced in paragraph 8.4.2 of the Regulation, as for the original parts.

The demonstration of compliance to requirements specified in this paragraph shall be supported by an onsite audit, conducted by the Technical Services in charge of approval tests. To support the audit the manufacturer shall provide access to the process flow chart and control plan.

5.3.2.2.   Since the identical brake discs/drums fulfils all requirement as the Original part no testing requirements are prescribed.

5.3.3.   Equivalent replacement discs or drums

5.3.3.1.   Geometric requirements

The brake discs or drums shall be identical to the original brake disc or drum in respect to all dimensions, geometric features, tolerances and basic design.

5.3.3.2.   Material and metallurgical requirements

In order to be considered ‘Equivalent’ the replacement brake disc or drum shall be from the same material sub-group as the original brake disc or drum. Four original part material sub-groups are defined.

 

Test standard

Sub-group 1

Base cast iron

DIN EN 1561

EN-GJL-200

Sub-group 2

Base high carbon

EN-GJL-150

Sub-group 3

Alloyed high carbon

Sub-group 4

Unalloyed high carbon

Carbon Content (per cent)

 

3,20-3,60

3,60-3,90

3,55-3,90

3,60-3,90

Silicon Content (per cent)

 

1,70-2,30

1,60-2,20

1,60-2,20

1,60-2,20

Manganese Content (per cent)

 

Min 0,40

Min 0,40

Min 0,40

Min 0,40

Chromium Content (per cent)

 

Max 0,35

Max 0,35

0,30-0,60

Max 0,25

Copper Content (per cent)

 

0,30-0,70

0,30-0,70

Max 0,40

Hardness HBW

ISO 6506-1:2005

190-248

160-210

180-230

160-200

Tensile strength (N/mm2)

ISO 6892:1998

Min 220

Min 160

Min 170

Min 150

5.3.3.2.1.   For vehicles of category M, N, O, in order to be considered ‘Equivalent’ the replacement brake disc or drum shall be from the same material sub-group as the original brake disc or drum. Four original part material sub-groups are defined.

5.3.3.2.2.   Martensitic stainless steel for braking ring of vehicles of categories L1, L2, L3, L4 and L5. In order to be considered ‘Equivalent’ the replacement brake disc shall be from the same material subgroup as the original brake disc. Five original part material subgroups are defined.

 

Test standard

Subgroup 1

JIS SUS 410

Subgroup 2

X 10 Cr 13

EN 10088/2

Subgroup 3

X 12 Cr 13

EN 10088/2

Subgroup 4

X 20 Cr 13

EN 10088/2

Subgroup 5

X 30 Cr 13

EN 10088/2

Carbon Content (per cent)

 

0,02-0,10

0,08-0,12

0,08-0,15

0,16-0,25

0,26-0,35

Silicon Content (per cent)

 

Max 0,80

Max 1,00

Max 1,00

Max 1,00

Max 1,00

Manganese Content (per cent)

 

0,50-2,50

Max 1,00

Max 1,50

Max 1,50

Max 1,50

Chromium Content (per cent)

 

10,00-14,50

12,00-14,00

11,50-13,50

12,00-14,00

12,00-14,00

Iron Content (per cent)

 

rest

Hardness HRC

ISO 6508-1:2005

30-40

30-40

30-40

30-40

30-40

5.3.3.3.   Performance requirements

The part has to pass the integrity tests for high load and thermal fatigue according to Annexes 11 and 12.

5.3.3.3.1.   Brake disc and brake drum for categories M, N and O

The part has to pass the integrity tests for high load and thermal fatigue according to Annexes 11 and 12.

5.3.3.3.2.   Brake disc for categories L1, L2, L3, L4 and L5

The part has to pass the integrity tests for high load and thermal fatigue according to Annex 14.

5.3.4.   Interchangeable replacement discs or drums

5.3.4.1.   Geometric requirements

As paragraphs 5.3.4.1.1 and 5.3.4.1.2 plus the same interface dimensions.

An interchangeable replacement disc or drum may differ from the original part disc in design features such as:

(a)

Type and geometry of ventilation (for vented discs);

(b)

Integral or composite disc or drum;

(c)

Surface finish (e.g. holes, slots etc.).

5.3.4.1.1.   For discs, the following maximum values shall be met:

 

M1, N1, O1, O2

M2, N2,

M3, N3, O3, O4

Thickness variation

0,015 mm

0,030 mm

0,040 mm

Cheek thickness variation

(for ventilated disc only)

1,5 mm

2,0 mm

2,0 mm

Lateral run-out friction surface

0,050 mm (10)

0,15 mm (10)

0,15 mm (10)

Location bore variation

H9

H9

H9

‘Top hat’ parallelism

0,100 mm

0,100 mm

0,100 mm

Location face flatness

0,050 mm

0,050 mm

0,050 mm

Friction surface roughness (11)

3,2 μm

3,2 μm

3,2 μm

5.3.4.1.2.   For drums, the following maximum values shall be met:

 

M1, N1, O1, O2

M2, M3, N2, N3, O3, O4

Radial run-out friction surface

0,050 mm

0,100 mm

Location bore variation

H9

H9

Ovality

0,040 mm

0,150 mm

Location face flatness

0,050 mm

0,050 mm

Friction surface roughness (12)

3,5 μm

3,5 μm

5.3.4.2.   Performance requirements

The part shall pass the following performance tests according to Annexes 11 and 12 for categories M, N and O and Annex 14 for categories L1, L2, L3, L4 and L5:

(a)

The performance test according to Regulation No 13 or 13-H or 78;

(b)

The Comparison test with dynamic frictional properties of the original part;

(c)

The integrity tests for high load and thermal fatigue.

5.3.5.   Type

Brake discs/drums that do not differ in terms of their main characteristics as detailed below shall be regarded as one type within one report or approval:

5.3.5.1.   Type criteria for brake discs

5.3.5.1.1.   Basic design

(a)

With or without ventilation (e.g. solid, ventilated);

(b)

Design of ventilation;

(c)

Surface (e.g. with or without grooves or holes);

(d)

Hub (with or without integrated parking brake drum);

(e)

Mounting (rigid, semi-floating, floating, etc.);

(f)

Hat (with or without integrated parking brake drum).

5.3.5.1.2.   Material group

For brake discs for vehicles of categories M, N and O, all material groups (including their respective subgroups) are considered to be a separate type.

For brake discs for vehicles of categories L1, L2, L3, L4 and L5, all material groups (excluding the martensitic stainless steel subgroup) are considered to be a separate type.

5.3.5.1.2.1.   Cast iron

5.3.5.1.2.2.   Steel

5.3.5.1.2.3.   Composite materials

5.3.5.1.2.4.   Multi-material construction

5.3.5.2.   Type criteria for brake drums

(a)

Material group (e.g. steel, cast iron, composite);

(b)

Hub (with/without);

(c)

Composite design.

5.3.6.   Test group criteria (within the same type)

It is only possible to test interchangeable parts in Test Groups if the connection between the mounting area and the disc friction faces are of the same general form.

From each of the test groups mentioned below, at least one variant is subject to the corresponding tests laid down in Annexes 10, 11 or 12. The variant chosen from within a test group to test the replacement part is that which has the highest ratio of kinetic energy to its directly corresponding replacement part mass:

Formula

With:

V max, i

maximum design speed of the vehicle to which the replacement part is fitted (in the case of trailers vmax, i is assumed at least at 80 km/h)

m

test mass as defined in Annex 11, paragraph 3.2.1.2, Annex 12, paragraph 3.2.1.2 and Annex 14, paragraph 4.2.1.2.

mreplacement part, i

mass of the replacement part of the corresponding vehicle

5.3.6.1.   Replacement brake discs

5.3.6.1.1.   Criteria concerning the formation of test groups with regard to replacement brake discs in vehicles belonging to categories M1, M2, N1, N2, O1 and O2

5.3.6.1.1.1.   Test group relating to the tests stipulated in paragraphs 1 to 4 of Annex 11 or Annex 12

This test group includes all brake discs where the outside diameter of the disc do not vary by more than 6 mm and the disc thickness by not more than 4 mm.

5.3.6.1.1.2.   In the case of different materials within a group of materials, proof shall be furnished for each separate material that the requirements stipulated in Annex 11 or Annex 12 are met.

5.3.6.1.2.   Criteria concerning the formation of test groups with regard to replacement brake discs in vehicles belonging to categories M3, N3, O3 and O4

5.3.6.1.2.1.   Test group relating to the tests stipulated in paragraphs 1 to 4 of Annex 11 or Annex 12

This test group includes all brake discs where the outside diameter of the disc does not vary by more than 10 mm and the disc thickness by not more than 4 mm.

5.3.6.1.2.2.   In the case of different materials within a group of materials, proof shall be furnished for each separate material that the requirements stipulated in Annex 11 or Annex 12 are met.

5.3.6.1.3.   Criteria concerning the formation of test groups with regard to replacement brake discs in vehicles belonging to categories L1, L2, L3, L4 and L5.

5.3.6.1.3.1.   Test group relating to the tests stipulated of Annex 14.

This test group includes all brake discs according to the criteria set out in Annex 15.

5.3.6.2.   Replacement brake drums

5.3.6.2.1.   Criteria concerning the formation of test groups with regard to replacement brake drums in vehicles belonging to categories M1, M2, N1, N2, O1 and O2

5.3.6.2.1.1.   Test group relating to the tests stipulated in paragraphs 1 to 4 of Annex 11 or Annex 12

This test group includes all brake drums that do not vary by more than 30 mm in terms of the inside diameter of the drum and by more than 10 mm as regards the shoe width of the drum brake.

5.3.6.2.1.2.   In the case of different materials within a group of materials, proof shall be furnished for each separate material that the requirements stipulated in Annex 11 or Annex 12 are met.

5.3.6.2.2.   Criteria concerning the formation of test groups with regard to replacement brake drums in vehicles belonging to categories M3, N3, O3 and O4

5.3.6.2.2.1.   Test group relating to the tests stipulated in paragraphs 1 to 4 of Annex 11 or Annex 12

Brake drums may be grouped together as test groups on the basis that each permitted test group range is from the smallest inside diameter to the smallest inside diameter +10 per cent and by no more than 40 mm on the shoe width of the drum.

5.3.6.2.2.2.   In the case of different materials within a group of materials, proof shall be furnished for each separate material that the requirements stipulated in Annex 11 or Annex 12 are met.

5.3.7.   Scope of assessment with regard to replacement brake discs/drums

5.3.7.1.   Geometric checks

Compared with original parts, replacement brake discs/drums shall be checked in terms of the following applicable characteristics (see also Annex 10):

(a)

Disc/drum diameter, including friction surface diameters (in the case of a disc brake with an integrated parking brake drum, both diameters have to be checked);

(b)

Disc thickness (original dimensions and the minimum permissible wear indication) — mounting face to external friction surface;

(c)

Mounting flange thickness;

(d)

Pitch circle diameter of fixing holes/studs;

(e)

Number of fixing holes/studs;

(f)

Mounting flange diameter;

(g)

Type of centring (e.g. central spigot or mounting bolts/studs);

(h)

In the case of brake discs with integrated parking brake drums the width of the friction surface area and any heat compensation groove(s);

(i)

Additionally, in the case of ventilated brake discs:

(i)

The type of ventilation (internal/external);

(ii)

The number of ribs and pillars;

(iii)

The dimensions of the ventilation duct.

5.3.7.2.   Balancing provision

The balancing provision with regard to the replacement brake discs/drums shall correspond to that of the original part being replaced.

5.3.7.3.   Assessment of the wear condition of the friction surfaces

This shall conform to the vehicle manufacturer criteria.

5.3.7.4.   Tests

Each test group (see paragraph 5.3.6) within a particular type of replacement brake disc/drum (see paragraph 5.3.5) shall be tested by the Technical Service.

5.3.8.   Test report

A test report shall be produced, the content of which shall be at least that defined in Annex 13 to this Regulation.

6.   PACKAGING AND MARKING

6.1.   Packaging and marking requirements regarding a replacement brake lining assembly type, a replacement drum brake lining type or a replacement drum brake lining:

6.1.1.

Replacement brake lining assemblies or replacement drum brake linings conforming to a type approved in accordance with this Regulation shall be marketed in axle sets.

6.1.2.

Each axle set shall be contained in a sealed package constructed to show previous opening.

6.1.3.

Each package shall display the following information:

6.1.3.1.

The quantity of replacement brake lining assemblies or replacement drum brake linings in the package;

6.1.3.2.

Manufacturer's name or trade mark;

6.1.3.3.

Make and type of replacement brake lining assemblies or replacement drum brake linings;

6.1.3.4.

The vehicles/axles/brakes for which the contents are approved;

6.1.3.5.

The approval mark.

6.1.4.

Each package shall contain fitting instructions in an official ECE language, supplemented by the corresponding text in the language of the country where it is sold:

6.1.4.1.

With particular reference to auxiliary parts;

6.1.4.2.

Stating that replacement brake lining assemblies or replacement drum brake linings should be replaced in axle sets;

6.1.4.3.

With, in the case of replacement drum brake linings, a general statement calling attention to the following points:

 

The integrity of the shoe platform, abutment and pivot;

 

Freedom of the shoe from distortion, deformation and corrosion;

 

The type and size of rivet to be used;

 

The required riveting tools and forces.

6.1.4.4.

With, additionally, in the case of combined braking systems in the meaning of paragraph 2.9 of Regulation No 78 giving the approved brake lining assembly combination(s).

6.1.5.

Each replacement brake lining assembly or replacement drum brake lining shall display permanently one set of approval data:

6.1.5.1.

The approval mark;

6.1.5.2.

The date of manufacture, at least month and year, or batch number;

6.1.5.3.

Make and type of brake lining.

6.2.   Packaging and marking requirements regarding replacement brake discs or replacement brake drums

6.2.1.   Every unit sold shall be provided with at least the following information:

6.2.1.1.

Part number;

6.2.1.2.

In the case of motor vehicles:

Make, type and trade name of the vehicle, the axle intended to be fitted and period of manufacturing of the vehicle; should the period of manufacture not be readily available a reference to the original part number/identification code may be used;

6.2.1.3.

In the case of trailers a reference to the original part number/identification code shall be used;

6.2.1.4.

Each package shall contain fitting instructions in the language of the country where it is sold:

6.2.1.4.1.

With particular reference to ancillary parts;

6.2.1.4.2.

Stating that replacement brake discs and drums should be replaced in axle sets.

6.2.2.   Marking

Every brake disc/drum approved in accordance with this Regulation shall be durably marked with at least the following information:

6.2.2.1.

Manufacturer's name or trade mark;

6.2.2.2.

The approval number;

6.2.2.3.

Part number;

6.2.2.4.

An indication which provides traceability of the production process (e.g. date, batch number, source code);

6.2.2.5.

The minimum thickness of the brake disc or the maximum permissible inside diameter of the brake drum.

7.   MODIFICATIONS AND EXTENSION OF APPROVAL OF REPLACEMENT PARTS

7.1.   Every modification of the replacement part shall be notified to the Type Approval Authority which granted the type approval. The Authority may then either:

7.1.1.

Consider that the modifications made are unlikely to have appreciable adverse effects and that in any event the replacement part still complies with the requirements; or

7.1.2.

Require a further test report from the technical service responsible for conducting the tests.

7.2.   Confirmation or refusal of approval, specifying the alterations, shall be notified by the procedure specified in paragraph 4.4 above to the Parties to the 1958 Agreement applying this Regulation.

7.3.   The Competent Authority issuing the extension of approval shall assign a series number for such an extension and inform thereof the other Parties to the 1958 Agreement applying this Regulation by means of a communication form conforming to the model in Annex 1 to this Regulation.

8.   CONFORMITY OF PRODUCTION

8.1.   Replacement parts approved to this Regulation shall be so manufactured as to conform to the type approved.

8.2.   Original parts being the subject of an application under paragraph 3.2 are deemed to satisfy the requirements of paragraph 8.

8.3.   To verify that the requirements of paragraph 8.1 are met, suitable controls of the production shall be applied. These shall encompass the control of raw materials and components used.

8.4.   The holder of an approval shall in particular:

8.4.1.

Ensure that for each replacement brake lining assembly type or replacement drum brake lining type at least the relevant tests prescribed in paragraph 5.2.2 and the relevant tests as prescribed in Annex 9 to this Regulation are carried out on a statistically controlled and random basis in accordance with a regular quality assurance procedure. For parking brake lining assemblies only the shear strength described in paragraph 5.2.2 is applicable.

8.4.2.

Ensure that for each replacement disc and drum at least the tests prescribed in Annex 9 to this Regulation are carried out on a statistically controlled and random basis in accordance with a regular quality assurance procedure.

8.4.3.

Ensure existence of procedures for the effective control of the quality of products;

8.4.4.

Have access to the control equipment necessary for checking the conformity of each approved type;

8.4.5.

Analyse the results of each type of test in order to verify and ensure the consistency of the product characteristics, making allowance for variation of an industrial production;

8.4.6.

Ensure that data of test results are recorded and that annexed documents remain available for a period to be determined in agreement with the administrative service;

8.4.7.

Ensure that any samples or test pieces giving evidence of non-conformity with the type of test considered shall give rise to another sampling and another test. All the necessary steps shall be taken to re-establish the conformity of the corresponding production.

8.5.   The Competent Authority which has granted type-approval may at any time verify the conformity control methods applicable to each production unit.

8.5.1.   In every inspection, the test books and production survey records shall be presented to the visiting inspector.

8.5.2.   The inspector may take samples at random to be tested in the manufacturer's laboratory. The minimum number of samples may be determined according to the results of the manufacturer's own verification.

8.5.3.   When the quality level appears unsatisfactory or when it seems necessary to verify the validity of the tests carried out in application of paragraph 8.5.2 the inspector shall select samples to be sent to the technical service which has conducted the type approval tests.

8.5.4.   The competent authority may carry out any tests prescribed in this Regulation.

8.5.5.   The normal frequency of inspections authorized by the Competent Authority shall be one per year. In the case where negative results are recorded during one of these visits, the competent authority shall ensure that all necessary steps are taken to re-establish the conformity of production as rapidly as possible.

9.   PENALTIES FOR NON-CONFORMITY OF PRODUCTION

9.1.   The approval granted in respect of a replacement brake lining assembly type or drum brake lining type pursuant to this Regulation may be withdrawn if the requirements laid down in paragraph 8.1 above are not complied with.

The approval granted in respect of the type of a replacement brake drum or a replacement brake disc pursuant to this Regulation may be withdrawn if the requirements laid down in paragraph 8.1 above are not complied with.

9.2.   If a Contracting Party to the Agreement applying this Regulation withdraws an approval it has previously granted, it shall forthwith so notify the other Contracting Parties applying this Regulation, by means of a communication form conforming to the model in Annex 1A or Annex 1B to this Regulation.

10.   PRODUCTION DEFINITIVELY DISCONTINUED

If the holder of the approval completely ceases to manufacture a replacement part approved in accordance with this Regulation, he shall so inform the authority which granted the approval. Upon receiving the relevant communication that authority shall inform thereof the other Parties to the 1958 Agreement applying this Regulation by means of a communication form conforming to the model in Annex 1A or 1B to this Regulation.

11.   NAMES AND ADDRESSES OF TECHNICAL SERVICES RESPONSIBLE FOR CONDUCTING APPROVAL TESTS, AND OF TYPE APPROVAL AUTHORITIES

The Contracting Parties to the 1958 Agreement which apply this Regulation shall communicate to the United Nations secretariat the names and addresses of the Technical Services responsible for conducting approval tests and of the Type Approval Authorities which grant approval and to which forms certifying approval or extension or refusal or withdrawal of approval, or production definitively discontinued, issued in other countries, are to be sent.

12.   TRANSITIONAL PROVISIONS

12.1.   As from the official date of entry into force of the 02 series of amendments, no Contracting Party applying this Regulation shall refuse to grant approval under this Regulation as amended by the 02 series of amendments.

12.2.   Even after the date of entry into force of the 02 series of amendments, brake lining assembly and drum brake lining approvals to the 01 series of amendments to the Regulation shall remain valid and Contracting Parties applying the Regulation shall continue to accept them and shall not refuse to grant extensions of approval to the 01 series of amendments to this Regulation.

12.3.   Contracting Parties applying this Regulation shall continue to allow fitting or use on a vehicle in use of a replacement brake lining assembly approved to this Regulation in its original, unamended form.


(1)  In this Regulation, references to Regulation No 13, 13-H or 78 shall be deemed also to refer to any other international rule such as 71/320/EEC, that applies the same technical requirements as Regulation No 13, 13-H or 78. References to specific sections of the Regulations shall be interpreted accordingly.

(2)  It does not apply to possible additional functions of replacement parts as for example speed sensing in the case of integrated speed sensing devices or guidance of the wheels in the case of integrated hubs.

(3)  If such brake linings are not available on the market, alternatively, brake linings listed under paragraph 8.2 may be used.

(4)  The distinguishing numbers of the Contracting Parties to the 1958 Agreement are reproduced in Annex 3 to Consolidated Resolution on the Construction of Vehicles (R.E.3), document ECE/TRANS/WP.29/78/Rev.2/Amend.1.

(5)  At the request of (an) applicant(s) for Regulation No 90 approval, the information shall be provided by the Type Approval Authority as contained in Appendix 1 to Annex 2 to Regulation No 13 approval or the appendix to Annex 1 to Regulation No 13-H approval. However, this information shall not be provided for purposes other than Regulation No 90 approvals.

(6)  Worst case analysis must include the following technical characteristics (as a minimum) of each vehicle type in the application range:

(a)

Rotor diameter;

(b)

Rotor thickness;

(c)

Ventilated or solid rotor;

(d)

Piston diameter;

(e)

Tyre dynamic radius;

(f)

Vehicle mass;

(g)

Axle mass and percentage of braking effort of the axle;

(h)

Maximum speed of the vehicle.

The testing conditions shall be specified in the test report.

(7)  See footnote 6.

(8)  See footnote 6.

(9)  This test is included for conformity of production purposes. Minimum values and the tolerances to be agreed with the Technical Service.

(10)  N/A in the case of a floating disc

(11)  Ra-value according to ISO 1302:2002

(12)  Ra-value according to ISO 1302:2002


ANNEX 1A

Image Text of image

ANNEX 1B

Image Text of image

ANNEX 2

ARRANGEMENTS OF THE APPROVAL MARK AND APPROVAL DATA

(See paragraph 4.2 of this Regulation)

Image

The above approval mark shows that the item concerned has been approved in France (E2) pursuant to Regulation No 90 under approval number C0359/7248. The first two digits of the approval number indicate that the approval was granted in accordance with the requirements of Regulation No 90 as amended by the 02 series of amendments.

Example of pad assembly marking

Image

Approval mark

Date of assembly manufacture and manufacturer’s name or trade mark

Make and type of brake lining

Example of shoe assembly marking

Image

Approval mark

Date of assembly manufacture and manufacturer’s name or trade mark

Make and type of brake lining

Example of drum brake lining marking

Image

Make and type of brake lining

Date of manufacture

Approval mark

Note: Positions of markings and mutual positions of markings shown in the examples are not mandatory.


ANNEX 3

REQUIREMENTS FOR REPLACEMENT BRAKE LINING ASSEMBLIES FOR VEHICLES OF CATEGORIES M1, M2 AND N1

1.   CONFORMANCE WITH REGULATION No 13 OR 13-H

Compliance with the requirements of Regulation No 13 or 13-H shall be demonstrated in a vehicle test.

1.1.   Vehicle preparation

1.1.1.   Test Vehicle

A vehicle which is representative of the type(s) for which the replacement brake lining assembly approval is required shall be equipped with the replacement brake lining assemblies of the type for which approval is requested and instrumented for brake testing as required by Regulations Nos 13 and 13-H.

Brake linings submitted for test shall be fitted to the relevant brakes and, until a fixed burnishing procedure is established, shall be burnished to the manufacturer's instructions in agreement with the technical service.

1.1.2.   Bedding (burnishing) procedure

1.1.2.1.   General conditions

Brake lining assemblies submitted for test shall be fitted to the relevant brakes. In the case of replacement brake lining assemblies, new brake linings must be used. Drum brake linings may be machined to achieve the best possible initial contact between the linings and drum(s). The test vehicle shall be fully laden.

Original brake lining assemblies used for comparison test and already fitted to the test vehicle may be used provided they are in a good condition and have not been worn out by more than 20 per cent of the initial thickness. They must not show damages, cracks, excessive corrosion or signs of overheating. They shall be bedded to the procedure described below.

1.1.2.2.   Procedure

Perform a minimum 50 km driving distance and at least 100 brake applications at varying decelerations (at least between 1 m/s2 and 5 m/s2) with initial speeds between 50 km/h and 120 km/h. A temperature range between 250 °C and 500 °C for pad assemblies or between 150 °C and 250 °C for drum brake lining assemblies (measured at the rubbing surface of the disc or drum) must be achieved at least 3 times during the bedding procedure. Temperatures must not exceed 500 °C for pad assemblies and 250 °C for drum brake lining assemblies.

1.1.2.3.   Performance check

By braking only one axle at a time perform 5 brake applications from 70 km/h to 0 km/h (front axle) and 45 km/h to 0 km/h (rear axle) at a line pressure of 4 Mpa (1) and with an initial temperature of 100 °C for each stop. The 5 consecutive non-monotonic results must remain within the tolerance of 0,6 m/s2 (front axle) or 0,4 m/s2 (rear axle) of their mean fully developed deceleration.

If this requirement is not fulfilled the bedding procedure according to paragraph 1.1.2.2 must be extended and the performance check according to paragraph 1.1.2.3 must be repeated.

1.2.   The braking system of the vehicle shall be tested according to the requirements for the vehicle category in question (M1, M2 or N1) in Regulation No 13, Annex 4, paragraphs 1 and 2 or Regulation No 13-H, Annex 3, paragraphs 1 and 2 whichever is appropriate taking into consideration the original approval of the system. The applicable requirements or tests are:

1.2.1.   Service braking system

1.2.1.1.   Type-0 test with engine disconnected, vehicle laden, according to Regulation No 13, Annex 4, paragraph 1.4.2 or Regulation No 13-H, Annex 3, paragraph 1.4.2.

1.2.1.2.   Type-0 test with engine connected, vehicle unladen and laden, according to Regulation No 13, Annex 4, paragraphs 1.4.3.1 (stability test) and 1.4.3.2 (only the test with initial speed v = 0,8 vmax) or Regulation No 13-H, Annex 3, paragraphs 1.4.3.1 and 1.4.3.2.

1.2.1.3.   Type-I test, according to Regulation No 13, Annex 4, paragraph 1.5 or Regulation No 13-H, Annex 3, paragraph 1.5.

1.2.2.   Secondary braking system

1.2.2.1.   Type-0 test with engine disconnected, vehicle laden, according to Regulation No 13, Annex 4, paragraph 2.2 or Regulation No 13-H, Annex 3, paragraph 2.2 (this test may be omitted in cases where it is obvious that the requirements are met, e.g. diagonal split braking system).

1.2.3.   Parking braking system

(Only applicable if the brakes for which lining approval is sought are used for parking).

1.2.3.1.   Parking brake test at 18 per cent gradient, vehicle laden, according to Regulation No 13, Annex 4, paragraph 2.3.1 or parking brake test at 20 per cent gradient, vehicle laden, Regulation No 13-H, Annex 3, paragraph 2.3.1.

1.3.   The vehicle must satisfy all the relevant requirements stated in Regulation No 13, Annex 4, paragraph 2 or Regulation No 13-H, Annex 3, paragraph 2 for that category of vehicle.

2.   ADDITIONAL REQUIREMENTS

Compliance with the additional requirements shall be demonstrated by using one of the two following methods:

2.1.   Vehicle test (split axle test)

For this test the vehicle shall be fully laden and all brake applications made with engine disconnected, on a level road.

The vehicle service brake control system shall be equipped with a means of isolating front and rear axle brakes so that either may be used independently of the other.

Where brake lining assembly approval is required for front axle brakes the rear axle brakes shall remain inoperative throughout the test.

Where brake lining assembly approval is required for rear axle brakes the front axle brakes shall remain inoperative throughout the test.

2.1.1.   Cold performance equivalence test

A comparison of the cold performance of the replacement brake lining assembly and the original brake lining assembly shall be made by comparing the results of testing to the following method:

2.1.1.1.

Make a minimum of six brake applications at spaced increments of pedal effort or line pressure up to wheel lock or, alternatively, up to a mean fully developed deceleration of 6 m/s2 or up to the allowed maximum pedal force for the category of vehicle in question from an initial speed as given in the table below:

Vehicle category

Test speed in km/h

Front axle

Rear axle

M1

70

45

M2

50

40

N1

65

50

The initial brake temperature at the start of each application shall be ≤ 100 °C.

2.1.1.2.

Note and plot pedal force or line pressure and mean fully developed deceleration for each application, and determine the pedal force or line pressure required to achieve (if possible) a mean fully developed deceleration of 5 m/s2 for front axle brakes and 3 m/s2 for rear axle brakes. If these values cannot be achieved with the maximum allowed pedal force determine alternatively the pedal force or line pressure required to achieve maximum deceleration.

2.1.1.3.

The replacement brake lining assembly shall be considered to show similar performance characteristics to the original brake lining assembly if the achieved mean fully developed decelerations at the same control force or line pressure in the upper two thirds of the generated curve are within 15 per cent of those obtained with the original brake lining assembly.

2.1.2.   Speed sensitivity test

2.1.2.1.   Using the pedal force derived from paragraph 2.1.1.2 of this annex and with initial brake temperature ≤ 100 °C, make three brake applications from each of the following speeds:

(a)

Front axle 65, 100 km/h and additionally 135 km/h where vmax exceeds 150 km/h;

(b)

Rear axle 45, 65 km/h and additionally 90 km/h where vmax exceeds 150 km/h.

2.1.2.2.   Average the results for each group of three applications and plot speed against corresponding mean fully developed deceleration.

2.1.2.3.   Mean fully developed decelerations recorded for the higher speeds shall lie within 15 per cent of that recorded for the lowest speed.

2.2.   Inertia dynamometer test

2.2.1.   Test equipment

For the tests an inertia dynamometer shall be equipped with the vehicle brake in question. The dynamometer shall be instrumented for continuous recording of rotational speed, brake torque, pressure in the brake line, number of rotations after brake application, braking time and brake rotor temperature.

2.2.2.   Test conditions

2.2.2.1.   The rotational mass of the dynamometer shall correspond to half the axle portion of the maximum vehicle mass as listed in the table below and to the rolling radius of the largest tyre that is authorized for that vehicle type(s).

Vehicle category

Axle portion of maximum vehicle mass

Front

Rear

M1

0,77

0,32

M2

0,69

0,44

N1

0,66

0,39

2.2.2.2.   The initial dynamometer rotational speed shall correspond to the linear vehicle speed as stated in paragraphs 2.2.3 and 2.2.4 of this annex and shall be based on the dynamic rolling radius of the tyre.

2.2.2.3.   Brake linings submitted for test shall be fitted to the relevant brakes and bedded (burnished) according to the following procedure:

 

Burnishing phase 1, 64 snubs from 80 km/h to 30 km/h at varying line pressures:

 

Rear axle

Rear axle

Parameter

Front axle

Disc brake

Drum brake

Number of snubs per cycle

32

32

32

Brake speed (km/h)

80

80

80

Release speed (km/h)

30

30

30

Initial brake temperature (°C)

< 100

< 100

< 80

Final brake temperature (°C)

Open

Open

Open

Pressure snub 1 (kPa)

1 500

1 500

1 500

Pressure snub 2 (kPa)

3 000

3 000

3 000

Pressure snub 3 (kPa)

1 500

1 500

1 500

Pressure snub 4 (kPa)

1 800

1 800

1 800

Pressure snub 5 (kPa)

2 200

2 200

2 200

Pressure snub 6 (kPa)

3 800

3 800

3 800

Pressure snub 7 (kPa)

1 500

1 500

1 500

Pressure snub 8 (kPa)

2 600

2 600

2 600

Pressure snub 9 (kPa)

1 800

1 800

1 800

Pressure snub 10 (kPa)

3 400

3 400

3 400

Pressure snub 11 (kPa)

1 500

1 500

1 500

Pressure snub 12 (kPa)

2 600

2 600

2 600

Pressure snub 13 (kPa)

1 500

1 500

1 500

Pressure snub 14 (kPa)

2 200

2 200

2 200

Pressure snub 15 (kPa)

3 000

3 000

3 000

Pressure snub 16 (kPa)

4 600

4 600

4 600

Pressure snub 17 (kPa)

2 600

2 600

2 600

Pressure snub 18 (kPa)

5 100

5 100

5 100

Pressure snub 19 (kPa)

2 200

2 200

2 200

Pressure snub 20 (kPa)

1 800

1 800

1 800

Pressure snub 21 (kPa)

4 200

4 200

4 200

Pressure snub 22 (kPa)

1 500

1 500

1 500

Pressure snub 23 (kPa)

1 800

1 800

1 800

Pressure snub 24 (kPa)

4 600

4 600

4 600

Pressure snub 25 (kPa)

2 600

2 600

2 600

Pressure snub 26 (kPa)

1 500

1 500

1 500

Pressure snub 27 (kPa)

3 400

3 400

3 400

Pressure snub 28 (kPa)

2 200

2 200

2 200

Pressure snub 29 (kPa)

1 800

1 800

1 800

Pressure snub 30 (kPa)

3 000

3 000

3 000

Pressure snub 31 (kPa)

1 800

1 800

1 800

Pressure snub 32 (kPa)

3 800

3 800

3 800

Number of cycles

2

2

2

 

Burnishing phase 2, 10 stops from 100 km/h to 5 km/h at 0,4 g deceleration and increasing initial temperatures:

 

Rear axle

Rear axle

Parameter

Front axle

Disc brake

Drum brake

Number of stops per cycle

10

10

10

Brake speed (km/h)

100

100

100

Release speed (km/h)

< 5

< 5

< 5

Deceleration level (g)

0,4

0,4

0,4

Maximum pressure (kPa)

16 000

16 000

10 000

Initial temperature 1 (°C)

< 100

< 100

< 100

Initial temperature 2 (°C)

< 215

< 215

< 151

Initial temperature 3 (°C)

< 283

< 283

< 181

Initial temperature 4 (°C)

< 330

< 330

< 202

Initial temperature 5 (°C)

< 367

< 367

< 219

Initial temperature 6 (°C)

< 398

< 398

< 232

Initial temperature 7 (°C)

< 423

< 423

< 244

Initial temperature 8 (°C)

< 446

< 446

< 254

Initial temperature 9 (°C)

< 465

< 465

< 262

Initial temperature 10 (°C)

< 483

< 483

< 270

Number of cycles

1

1

1

 

Recovery, 18 snubs from 80 km/h to 30 km/h at line pressure of 3 000 kPa:

 

Rear axle

Rear axle

Parameter

Front axle

Disc brake

Drum brake

Number of stops per cycle

18

18

18

Brake speed (km/h)

80

80

80

Release speed (km/h)

30

30

30

Pressure (kPa)

3 000

3 000

3 000

Initial brake temperature (°C)

< 100

< 100

< 80

Final brake temperature (°C)

Open

Open

Open

Number of cycles

1

1

1

2.2.2.4.   Perform 5 brake applications from 80 km/h to 0 km/h at a line pressure of 4 MPa and with an initial temperature of 100 °C for each stop. The 5 consecutive non-monotonic results must remain within the tolerance of 0,6 m/s2 of their mean fully developed deceleration.

If this requirement is not fulfilled the first part of the bedding procedure ‘Burnishing Phase 1’ must be repeated until the required performance stability is achieved.

2.2.2.5.   The use of cooling air is permitted. The speed of the airflow during the brake application at the brake shall be:

vair = 0,33 v

Where:

v

=

vehicle test speed at initiation of braking.

2.2.3.   Cold performance equivalence test

A comparison of the cold performance of the replacement brake lining assembly and the original brake lining assembly shall be made by comparing the results of testing to the following method.

2.2.3.1.   From the initial speed of 80 km/h for M1 and N1 and 60 km/h for M2 and with brake temperature ≤ 100 °C at the start of each application make a minimum of six brake applications at spaced intervals of line pressure up to a mean fully developed deceleration of 6 m/s2.

2.2.3.2.   Note and plot line pressure and mean fully developed deceleration for each application, and determine line pressure required to achieve 5 m/s2.

2.2.3.3.   The replacement brake lining assembly shall be considered to show similar performance characteristics to the original brake lining assembly if the achieved mean fully developed decelerations at the same control force or line pressure in the upper two thirds of the generated curve are within 15 per cent of those obtained with the original brake lining assembly.

2.2.4.   Speed sensitivity test

2.2.4.1.   Using the line pressure derived from paragraph 2.2.3.2 and with initial brake temperature ≤ 100 °C make three brake applications from rotational speeds corresponding to vehicle linear speeds of:

75, 120 km/h and additionally 160 km/h where vmax exceeds 150 km/h.

2.2.4.2.   Average the results for each group of three applications and plot speed against corresponding mean fully developed deceleration.

2.2.4.3.   Mean fully developed decelerations recorded for the higher speeds shall lie within 15 per cent of that recorded for the lowest speed.


(1)  For other than hydraulic braking systems an equivalent input value should be used.


ANNEX 4

REQUIREMENTS FOR REPLACEMENT BRAKE LINING ASSEMBLIES AND DRUM BRAKE LININGS FOR VEHICLES OF CATEGORIES M3, N2 AND N3

1.   VEHICLE TEST

1.1.   Test vehicle

A vehicle which is representative of the type(s) for which the replacement brake lining assembly approval or drum brake lining approval is required shall be equipped with brake lining assemblies or drum brake linings of the type for which approval is sought and instrumented for brake testing as required by Regulation No 13.

Brake linings submitted for test shall be fitted to the relevant brakes and, until a fixed burnishing procedure is established, shall be burnished to the manufacturer's instructions in agreement with the technical service.

1.2.   Tests and requirements

1.2.1.   Conformance with Regulation No 13

1.2.1.1.   The braking system of the vehicle shall be tested according to the requirements for the vehicle category in question (M3, N2 or N3) in Regulation No 13, Annex 4, paragraphs 1 and 2. The applicable requirements or tests are:

1.2.1.1.1.   Service braking system

1.2.1.1.1.1.   Type-0 test with engine disconnected, vehicle laden

1.2.1.1.1.2.   Type-0 test with engine connected, vehicle unladen and laden, according to Regulation No 13, Annex 4, paragraphs 1.4.3.1 (stability test) and 1.4.3.2 (only the test with initial speed v = 0,8 vmax).

1.2.1.1.1.3.   Type-I test according to Regulation No 13, Annex 4, paragraphs 1.5.1 and 1.5.3.

1.2.1.1.1.4.   Type-II test

The laden vehicle must be tested in such a manner that the energy input is equivalent to that recorded in the same period of time with the laden vehicle driven at an average speed of 30 km/h on a 2,5 per cent down-gradient for a distance of 6 km with the gear disengaged, the braking energy being taken by the service brakes alone.

1.2.1.1.2.   Secondary braking system

1.2.1.1.2.1.   Type-0 test with engine disconnected, vehicle laden (this test may be omitted if covered by tests according to paragraph 1.2.2 of this annex).

1.2.1.1.3.   Parking braking system

(Only applicable if the brakes for which lining approval is sought are used for parking.)

1.2.1.1.3.1.   Downhill test at 18 per cent gradient, vehicle laden

1.2.1.2.   The vehicle must satisfy all relevant requirements stated in Regulation No 13, Annex 4, paragraph 2 for that category of vehicle.

1.2.2.   Additional requirements (split axle test)

For the tests mentioned below the vehicle shall be fully laden and all brake applications made with engine disconnected, on a level road.

The vehicle service brake control system shall be equipped with a means of isolating front and rear axle brakes so that either may be used independently of the other.

Where brake lining assembly approval or drum brake lining approval is required for front axle brakes the rear axle brakes shall remain inoperative throughout the test.

Where brake lining assembly approval or drum brake lining approval is required for rear axle brakes the front axle brakes shall remain inoperative throughout the test.

1.2.2.1.   Cold performance equivalence test

A comparison of the cold performance of the replacement brake lining assembly or the replacement drum brake lining and the original brake lining assembly or the original drum brake lining shall be made by comparing the results of testing to the following method.

1.2.2.1.1.   Make a minimum of six brake applications at spaced increments of pedal force or line pressure up to wheel lock or, alternatively, up to a mean fully developed deceleration of 3,5 m/s2 or up to the maximum allowed pedal force or up to the maximum line pressure from an initial speed of 45 km/h and with a brake temperature ≤ 100 °C at the start of each application.

1.2.2.1.2.   Note and plot pedal force or line pressure and mean fully developed deceleration for each application, and determine the pedal force or line pressure required to achieve (if possible) a mean fully developed deceleration of 3 m/s2. If this value cannot be achieved determine alternatively the pedal force or line pressure required to achieve maximum deceleration.

1.2.2.1.3.   The replacement brake lining assembly or the replacement drum brake lining shall be considered to show similar performance characteristics to the original brake lining assembly or the original drum brake lining if the achieved mean fully developed decelerations at the same control force or line pressure in the upper two thirds of the generated curve are within 15 per cent of those obtained with the original brake lining assembly or the original drum brake lining.

1.2.2.2.   Speed sensitivity test

1.2.2.2.1.   Using the pedal force derived from paragraph 1.2.2.1.2 of this annex and with initial brake temperature ≤ 100 °C, make three brake applications from each of the following speeds:

 

40 km/h down to 20 km/h,

 

60 km/h down to 40 km/h, and

 

80 km/h down to 60 km/h (if vmax ≥ 90 km/h).

1.2.2.2.2.   Average the results for each group of three applications and plot speed against corresponding mean fully developed deceleration.

1.2.2.2.3.   Mean fully developed decelerations recorded for the higher speeds shall lie within 25 per cent of that recorded for the lowest speed.

2.   INERTIA DYNAMOMETER TEST

2.1.   Test equipment

For the tests an inertia dynamometer shall be equipped with the vehicle brake in question. The dynamometer shall be instrumented for continuous recording of rotational speed, brake torque, pressure in the brake line, number of rotations after brake application, braking time and brake rotor temperature.

2.1.1.   Test conditions

2.1.1.1.   The rotational mass of the dynamometer shall correspond to half the axle portion of 0,55 of the maximum vehicle mass and the rolling radius of the largest tyre that is authorised for that vehicle type(s).

2.1.1.2.   The initial dynamometer rotational speed shall correspond to the linear vehicle speed as stated in the paragraphs below and shall be based on the mean of the dynamic rolling radii of the largest and smallest tyres authorized for that vehicle type(s).

2.1.1.3.   Brake lining assemblies or drum brake linings submitted for the test shall be fitted to the brake and, until a fixed burnishing procedure is established, shall be burnished to the manufacturer's instructions in agreement with the technical service.

2.1.1.4.   If cooling air is used, the speed of the airflow at the brake shall be:

vair = 0,33v

Where:

v

=

vehicle test speed at initiation of braking.

2.1.1.5.   The actuation cylinder fitted to the brake must be of the smallest size that is authorized for that vehicle type(s).

2.2.   Tests and requirements

2.2.1.   Tests derived from Regulation No 13

2.2.1.1.   Type-0 test

From the initial speed of 60 km/h with a brake temperature ≤ 100 °C at the start of each application make a minimum of six brake applications at spaced intervals of line pressure up to the line pressure that is permanently guaranteed by the braking system of the vehicle type(s) (e.g. cut in pressure of the compressor). A mean fully developed deceleration of at least 5 m/s2 must be achieved.

2.2.1.2.   Type-0 test, high speed performance

Make three brake applications with a brake temperature of ≤ 100 °C at the start of each application from a speed of 100 km/h where approval is directed to vehicles of category N2 and 90 km/h where approval is directed to vehicles of categories M3 and N3 using the guaranteed line pressure as defined in paragraph 2.2.1.1. The mean value of the achieved mean fully developed decelerations of the three applications must be at least 4 m/s2.

2.2.1.3.   Type-I test

2.2.1.3.1.   Heating procedure

Make 20 consecutive snub applications with v1 = 60 km/h and v2 = 30 km/h with a cycle time of 60 s starting at a brake temperature of ≤ 100 °C at the first application. The line pressure shall correspond to a deceleration of 3 m/s2 at the first application and must remain constant throughout the succeeding applications.

2.2.1.3.2.   Hot performance

On completion of the heating procedure the hot performance shall be measured under the conditions of paragraph 2.2.1.1 above using the guaranteed line pressure as defined in paragraph 2.2.1.1 (the temperature conditions may be different). The mean fully developed deceleration with the heated brake must not be less than 60 per cent of the value achieved with the cold brake or 4 m/s2.

2.2.1.3.3.   Recovery

Starting 120 s after the hot performance brake application make 5 full stops with the line pressure used in paragraph 2.2.1.3.1 above and with intervals of at least 2 minutes from the initial speed of 60 km/h. At the beginning of the fifth application the brake temperature shall be ≤ 100 °C and the mean fully developed deceleration achieved shall be within 10 per cent of that calculated from the relation line pressure/deceleration of the Type-0 test at 60 km/h.

2.2.1.4.   Type-II test

2.2.1.4.1.   Heating procedure

The brakes shall be heated by constant braking torque corresponding to a deceleration of 0,15 m/s2 at a constant speed of 30 km/h during a period of 12 minutes.

2.2.1.4.2.   Hot performance

On completion of the heating procedure the hot performance shall be measured under the conditions of paragraph 2.2.1.1 above using the guaranteed line pressure as defined in paragraph 2.2.1.1 (the temperature conditions may be different). The mean fully developed deceleration with the heated brake must not be less than 3,75 m/s2.

2.2.1.5.   Static test for parking performance

2.2.1.5.1.   For the whole range of applications determine the worst case regarding input force to the brake, maximum vehicle mass to be braked by one axle, and tyre radius.

2.2.1.5.2.   Apply the brake with the input force as determined under paragraph 2.2.1.5.1 above.

2.2.1.5.3.   Put a slowly increasing torque on the dynamometer shaft in order to turn the drum or disc. Measure the output torque at the brake in the moment the dynamometer shaft begins to move and calculate corresponding axle braking force using the tyre radius as determined under paragraph 2.2.1.5.1.

2.2.1.5.4.   The brake force measured under paragraph 2.2.1.5.3 divided by one-half of the vehicle mass as determined under paragraph 2.2.1.5.1 must give at least a quotient of 0,18.

2.2.2.   Cold performance equivalence test

A comparison of the cold performance of the replacement brake lining assembly or the replacement drum brake lining and the original brake lining assembly or the original drum brake lining shall be made by comparing the results of the Type-0 test as described in paragraph 2.2.1.1.

2.2.2.1.   The Type-0 test as prescribed in paragraph 2.2.1.1 shall be performed with one set of the original brake lining assembly or the original drum brake lining.

2.2.2.2.   The replacement brake lining assembly or the replacement drum brake lining shall be considered to show similar performance characteristics to the original brake lining assembly or the original drum brake lining if the achieved mean fully developed decelerations at the same line pressure in the upper two thirds of the generated curve are within 15 per cent of those obtained with the original brake lining assembly or the original drum brake lining.

2.2.3.   Speed sensitivity test

2.2.3.1.   Using the guaranteed line pressure as defined in paragraph 2.2.1.1 and with initial brake temperature ≤ 100 °C, make three brake applications from each of the following speeds:

 

60 km/h down to 30 km/h,

 

80 km/h down to 60 km/h, and

 

110 km/h down to 80 km/h (if vmax ≥ 90 km/h).

2.2.3.2.   Average the results for each group of three applications and plot speed against corresponding mean fully developed deceleration.

2.2.3.3.   Mean fully developed decelerations recorded for the higher speeds shall lie within 25 per cent of that recorded for the lowest speed.


ANNEX 5

REQUIREMENTS FOR REPLACEMENT BRAKE LINING ASSEMBLIES FOR VEHICLES OF CATEGORIES O1 AND O2

1.   GENERAL

The test method described in this annex is based on an inertia dynamometer test. Alternatively the tests may be carried out on a test vehicle or on a rolling road test bench provided that the same test conditions are achieved and the same parameters measured as in the inertia dynamometer test.

2.   TEST EQUIPMENT

For the tests an inertia dynamometer shall be equipped with the vehicle brake in question. The dynamometer shall be instrumented for continuous recording of rotational speed, brake torque, pressure in the brake line or actuation force, number of rotations after brake application, braking time and brake rotor temperature.

2.1.   Test conditions

2.1.1.   The rotational mass of the dynamometer shall correspond to half the relevant axle portion of the maximum vehicle mass and the rolling radius of the largest tyre that is authorized for that vehicle type(s).

2.1.2.   The initial dynamometer rotational speed shall correspond to the linear vehicle speed as stated in paragraph 3.1 of this annex and shall be based on the dynamic rolling radius of the smallest tyre that is authorized for that vehicle type(s).

2.1.3.   Brake linings submitted for the test shall be fitted to the relevant brake and, until a fixed burnishing procedure is established, shall be burnished to the manufacturer's instructions in agreement with the technical service.

2.1.4.   If cooling air is used, the speed of the airflow at the brake shall be:

vair = 0,33v

Where:

v

=

vehicle test speed at initiation of braking.

2.1.5.   The actuation device fitted to the brake must correspond to the vehicle installation.

3.   TESTS AND REQUIREMENTS

3.1.   Type-0 test

From the initial speed of 60 km/h with a brake temperature ≤ 100 °C at the start of each application make a minimum of six consecutive brake applications at spaced intervals of line pressure or application force up to the maximum line pressure or up to 6 m/s2 deceleration. Repeat the last brake application using an initial speed of 40 km/h.

3.2.   Type-I test

3.2.1.   Heating procedure

The brake shall be heated with continuous braking according to the requirement of Regulation No 13, Annex 4, paragraph 1.5.2 starting with a brake rotor temperature ≤ 100 °C.

3.2.2.   Hot performance

On completion of the heating procedure the hot performance from an initial speed of 40 km/h shall be measured under the conditions of paragraph 3.2.1 above using the same line pressure or application force (the temperature conditions may be different). The mean fully developed deceleration with the heated brake must not be less than 60 per cent of the value achieved with the cold brake or 3,5 m/s2.

3.3.   Cold performance equivalence test

A comparison of the cold performance of the replacement brake lining assembly and the original brake lining assembly shall be made by comparing the results of the Type-0 test as described in paragraph 3.1.

3.3.1.   The Type-0 test as prescribed in paragraph 3.1 shall be performed with one set of the original brake lining assembly.

3.3.2.   The replacement brake lining assembly shall be considered to show similar performance characteristics to the original brake lining assembly if the achieved mean fully developed decelerations at the same line pressure or application force in the upper two thirds of the generated curve are within 15 per cent of those obtained with the original brake lining assembly.


ANNEX 6

REQUIREMENTS FOR REPLACEMENT BRAKE LINING ASSEMBLIES AND DRUM BRAKE LININGS FOR VEHICLES OF CATEGORIES O3 AND O4

1.   TEST CONDITIONS

The tests prescribed in this annex may be carried out alternatively on a test vehicle or on an inertia dynamometer or on a rolling road test bench under the same conditions as mentioned in Regulation 13, Annex 11, Appendix 2, paragraphs 3.1 to 3.4.

Brake linings submitted for test shall be fitted to the relevant brakes and, until a fixed burnishing procedure is established, shall be burnished to the manufacturer's instructions in agreement with the technical service.

2.   TESTS AND REQUIREMENTS

2.1.   Conformance with Regulation No 13, Annex 11

The brakes shall be tested according to the requirements of Regulation No 13, Annex 11, Appendix 2, paragraph 3.5.

2.1.1.   The results shall be reported in a form according to Regulation No 13, Annex 11, Appendix 3.

2.1.2.   A comparison shall be made between these results and those obtained with the original brake lining assemblies or the original drum brake linings under the same conditions.

2.1.3.   The achieved hot performance at the same input torque of the replacement brake lining assembly or the replacement drum brake lining in the Type-I test or in the Type-III test (whichever is applicable) must be:

(a)

Equal to or higher than the hot performance of the original brake lining assembly or the original drum brake lining; or

(b)

At least 90 per cent of the cold performance of the replacement brake lining assembly or the replacement drum brake lining.

The corresponding stroke of the actuator must not be ≥ 110 per cent of the value achieved with the original brake lining assembly or the original drum brake lining and must not exceed the value sp as defined in Annex 11, Appendix 2, paragraph 2 of Regulation No 13. In the case where the original brake lining assembly or drum brake lining has been tested against the Type-II test requirements, the minimum requirements of Regulation No 13, Annex 4, paragraph 1.7.2 (Type-III test) are applicable for the replacement brake lining assembly or drum brake lining.

2.2.   Cold performance equivalence test (Type-0)

2.2.1.   Under the conditions of paragraph 1 of this annex and from an initial speed of 60 km/h with a brake temperature ≤ 100 °C make 6 brake applications at spaced intervals of control force or line pressure up to 6,5 bar or an achieved deceleration of 6 m/s2.

2.2.2.   Note and plot control force or line pressure and mean brake torque or mean fully developed deceleration for each application.

2.2.3.   Compare the results with those obtained with the original brake lining assemblies or the original drum brake linings under the same test conditions.

2.2.4.   The replacement brake lining assembly or the replacement drum brake lining shall be considered to show similar performance characteristics to the original brake lining assembly or the original drum brake lining if the achieved mean fully developed decelerations at the same input force or line pressure in the upper two thirds of the generated curve are within –5 per cent and +15 per cent of those obtained with the original brake lining assembly or the original drum brake lining.


ANNEX 7

REQUIREMENTS FOR REPLACEMENT BRAKE LINING ASSEMBLIES FOR VEHICLES OF CATEGORY L

1.   TEST CONDITIONS

1.1.   A vehicle which is representative of the type(s) for which the replacement brake lining assembly approval is required shall be equipped with the brake lining assemblies of the type for which approval is requested and instrumented for brake testing as required by Regulation No 78.

1.2.   Brake lining assemblies submitted for the test shall be fitted to the relevant brakes and, until a fixed burnishing procedure is established, shall be burnished to the manufacturer's instructions in agreement with the technical service.

1.3.   In the case of brake lining assemblies for vehicles with a combined braking system in the meaning of paragraph 2.9 of Regulation No 78 the combination(s) of brake lining assemblies for the front and the rear axle to which the approval shall be directed must be tested.

The combination may consist of replacement brake lining assemblies for both axles and/or a replacement brake lining assembly on one and an original brake lining assembly on the other axle.

2.   TESTS AND REQUIREMENTS

2.1.   Conformance with Regulation No 78

2.1.1.   The braking system of the vehicle shall be tested according to the requirements for the vehicle category in question (L1, L2, L3, L4 or L5) in Regulation No 78, Annex 3, paragraph 1. The applicable requirements or tests are:

2.1.1.1.   Type-0 test with engine disconnected

The test is to be carried out only in the laden condition. Make a minimum of six brake applications at spaced increments of control force or line pressure up to wheel lock, or up to a deceleration of 6 m/s2 or up to the maximum allowed control force.

2.1.1.2.   Type-0 test with engine connected

Only applicable for vehicles of categories L3, L4 and L5

2.1.1.3.   Type-0 test with wet brakes

Not applicable to vehicles of category L5 or in cases of drum brakes or fully enclosed disc brakes not subjected to this test during approval to Regulation No 78.

2.1.1.4.   Type-I test

Only applicable for vehicles of categories L3, L4 and L5

2.1.2.   The vehicle must satisfy all the relevant requirements stated in Regulation No 78, Annex 3, paragraph 2 for that category of vehicles.

2.2.   Additional requirements

2.2.1.   Cold performance equivalence test

A comparison of the cold performance of the replacement brake lining assembly and the original brake lining assembly shall be made by comparing the results of the Type-0 test as described in paragraph 2.1.1.1.

2.2.1.1.   The Type-0 test as prescribed in paragraph 2.1.1.1 shall be performed with one set of the original brake lining assembly.

2.2.1.2.   The replacement brake lining assembly shall be considered to show similar performance characteristics to the original brake lining assembly if the achieved mean fully developed decelerations at the same line pressure in the upper two thirds of the generated curve are within 15 per cent of those obtained with the original brake lining assembly.

2.2.2.   Speed sensitivity test

This test is only applicable for vehicles of categories L3, L4 and L5 and shall be carried out with the laden vehicle under the conditions of the Type-0 test with engine disconnected. However, the test speeds are different.

2.2.2.1.   From the results of the Type-0 test as described in paragraph 2.1.1.1 determine the control force or line pressure corresponding to the minimum required mean fully developed deceleration for that category of vehicle.

2.2.2.2.   Using the control force or line pressure determined in paragraph 2.2.2.1 and with initial brake temperature ≤ 100 °C, make three brake applications from each of the following speeds:

40 km/h, 80 km/h and 120 km/h (if vmax ≥ 130 km/h).

2.2.2.3.   Average the results for each group of three applications and plot speed against corresponding mean fully developed deceleration.

2.2.2.4.   Mean fully developed decelerations recorded for the higher speeds shall lie within 15 per cent of that recorded for the lowest speed.


ANNEX 7a

CRITERIA TO DEFINE GROUPS OF BRAKE LINING ASSEMBLY FOR VEHICLES OF CATEGORY L

1.   GROUPING CRITERIA

The grouping is made according to the following approach:

(a)

According to the individual friction material of the brake lining;

(b)

Depending on the area of the friction material area of the brake lining assembly operated by the piston/pistons of only one side of the brake caliper.

Friction material area means all the area enclosed within the perimeter of the brake lining (see the red cross-hatched area, Figure 1), thus excluding the presence of any grooves and/or chamfers:

Figure 1

Image

3 area groups are foreseen, as in Table 1:

Table 1

Group

Brake lining area

[cm2]

A

≤ 15

B

> 15 ≤ 22

C

> 22

2.   PROCEDURE FOR SELECTION OF THE BRAKE LINING ASSEMBLY REPRESENTATIVE OF THE GROUP TO BE APPROVED

The brake lining assembly to be approved is defined, according to the following criteria:

(a)

Choice of friction material to be approved;

(b)

Verification of the applications where the chosen friction material is applied;

(c)

Definition of the area of the selected brake lining assemblies according to Table 1, and classification into groups A – B – C;

(d)

For each group, selection of the most severe application, according to the highest value of the index Ep (kinetic energy by brake lining area), as follows:

Ep = Formula × M × p × (V × c)2/(S × qp)

where:

Ep

=

kinetic energy index [kJ/cm2]

M

=

gross vehicle weight of the vehicle [kg]

p

=

allocation percentage of the vehicle weight:

(a)

for front braking system:

(i)

75 per cent in case of 1 brake disc

(ii)

37,5 per cent in case of 2 brake discs

(b)

for rear braking system:

(i)

50 %

V

=

vehicle maximum speed [m/s]

c

=

correction coefficient of speed:

(c)

for front braking system = 0,8

(d)

for rear braking system: variable according to the brake disc diameter:

(i)

0,5 for Ø ≤ 245 [mm]

(ii)

0,6 per Ø > 245 < 280 [mm]

(iii)

0,75 per Ø ≥ 280 [mm]

S

=

brake lining area as defined in Table 1 [cm2].

qp

=

number of pads in 1 caliper

3.   EXTENSION OF THE HOMOLOGATION FOR NEW APPLICATION

For new application that will be included into an existing group, an increase of 10 per cent MAX kinetic energy index (Ep = kinetic energy [kJ/cm2]) is allowed with reference to the value used for the approval of the brake lining assembly of the reference group.


ANNEX 8

TECHNICAL PRESCRIPTIONS FOR REPLACEMENT BRAKE LINING ASSEMBLIES INTENDED FOR THE USE IN SEPARATE PARKING BRAKE SYSTEMS BEING INDEPENDENT OF THE VEHICLE SERVICE BRAKE SYSTEM

1.   COMPLIANCE WITH REGULATION No 13 OR 13-H

Compliance with the requirements of Regulation No 13 or 13-H shall be demonstrated in a vehicle test.

1.1.   Vehicle test

A vehicle which is representative of the type(s) for which the replacement brake lining assembly approval is required shall be equipped with the replacement brake lining assemblies of the type for which approval is requested and instrumented for brake testing as required by Regulation No 13 or Regulation No 13-H whichever is appropriate. The vehicle shall be fully laden. Brake linings submitted for test shall be fitted to the relevant brakes and shall not be burnished.

1.2.   The parking braking system of the vehicle shall be tested according to all relevant requirements in Regulation No 13, Annex 4, paragraph 2.3 or Regulation No 13-H, Annex 3, paragraph 2.3, whichever is appropriate taking into consideration the original approval of the system.


ANNEX 9

SPECIAL ADDITIONAL PROCEDURES FOR CONFORMITY OF PRODUCTION

PART A

Determination of friction behaviour by machine testing

1.   INTRODUCTION

Part A applies to replacement brake lining assemblies or replacement drum brake linings approved to this Regulation.

1.1.   Samples of a replacement brake lining assembly type shall be tested on a machine capable of generating the test conditions and applying the test procedures described in this annex.

1.2.   Test results shall be evaluated to determine sample friction behaviour.

1.3.   The friction behaviour of samples shall be compared to assess conformity with the standard registered for a replacement brake lining assembly type.

2.   REPLACEMENT BRAKE LINING ASSEMBLIES FOR VEHICLES OF CATEGORIES M1, M2, N1, O1, O2, AND L

2.1.   Equipment

2.1.1.   The machine shall be designed to accept and operate a full size brake similar to those fitted to the vehicle axle used for approval testing to paragraph 5 of this Regulation.

2.1.2.   The disc or drum rotational speed shall be 660 ± 10 1/min (1) without load and shall not fall below 600 1/min on full load.

2.1.3.   The test cycles and brake applications during the cycles to be adjustable and automatic.

2.1.4.   Output torque or brake pressure (constant torque method) and working surface temperature shall be recorded.

2.1.5.   Provisions shall be made to direct cooling air across the brake at a rate of 600 ± 60 m3/h.

2.2.   Test procedure

2.2.1.   Sample preparation

The manufacturer's bedding schedule shall ensure a minimum of 80 per cent surface contact area for pad assemblies without exceeding a surface temperature of 300 °C and 70 per cent surface contact area for the leading shoe assemblies without exceeding a surface temperature of 200 °C.

2.2.2.   Test schedule

The test schedule comprises a number of consecutive braking cycles each containing X braking intervals of 5 seconds brake applied followed by 10 seconds brake released.

The following two methods may be used alternatively.

2.2.2.1.   Test schedule with constant pressure

2.2.2.1.1.   Pad assemblies

The hydraulic pressure p under the piston(s) of the caliper shall be constant following the formula:

Formula

Md

=

150 Nm for Ak ≤ 18,1 cm2

Md

=

300 Nm for Ak > 18,1 cm2

Ak

=

area of caliper piston(s)

rw

=

effective radius of disc

No of cycle

Number of brake applications X

Initial brake rotor temperature (°C)

Max. brake rotor temperature (°C)

Forced cooling

1

1 × 10

≤ 60

open

no

2-6

5 × 10

100

open (350) (2)

no

7

1 × 10

100

open

yes

2.2.2.1.2.   Shoe assemblies

The mean contact pressure at the brake lining working surface shall be constant at 22 ± 6 N/cm2 calculated for a static brake without self-energizing.

No of cycle

Number of brake applications X

Initial brake rotor temperature (°C)

Max. brake rotor temperature (°C)

Forced cooling

1

1 × 10

≤ 60

200

yes

2

1 × 10

100

open

no

3

1 × 10

100

200

yes

4

1 × 10

100

open

no

2.2.2.2.   Test schedule with constant torque

This method applies only for pad assemblies. The brake torque shall be constant within a tolerance of ± 5 per cent and adjusted to guarantee the maximum brake rotor temperatures given in the table below.

No of cycle

Number of brake applications X

Initial brake rotor temperature (°C)

Max. brake rotor temperature (°C)

Forced cooling

1

1 × 5

≤ 60

300-350 (200-250) (3)

no

2-4

3 × 5

100

300-350 (200-250)

no

5

1 × 10

100

500-600 (300-350)

no

6-9

4 × 5

100

300-350 (200-250)

no

10

1 × 10

100

500-600 (300-350)

no

11-13

3 × 5

100

300-350 (200-250)

no

14

1 × 5

≤ 60

300-350 (200-250)

no

2.3.   Evaluation of test results

Friction behaviour is determined from the brake torque noted at selected points in a test schedule. Where brake factor is constant, e.g. a disc brake, brake torque may be translated to coefficient of friction.

2.3.1.   Pad assemblies

2.3.1.1.   The operational coefficient of friction (μop) is the mean of the values recorded during cycles two to seven (constant pressure method) or during cycles 2-4, 6-9 and 11-13 (constant torque method); measurement being made one second after commencing the first brake application of each cycle.

2.3.1.2.   The maximum coefficient of friction (μmax) is the highest value recorded during all cycles.

2.3.1.3.   The minimum coefficient of friction (μmin) is the lowest value recorded during all cycles.

2.3.2.   Shoe assemblies

2.3.2.1.   The mean torque (Mmean) is the average of the maximum and minimum values of brake torque recorded during the fifth brake application of cycles one and three.

2.3.2.2.   The hot torque (Mhot) is the minimum brake torque developed during cycles two and four. If the temperature exceeds 300 °C during these cycles the value at 300 °C is to be taken as Mhot.

2.4.   Acceptance criteria

2.4.1.   With each application for approval of a brake lining assembly type there shall be submitted:

2.4.1.1.

For pad assemblies, values for μop, μmin, μmax.

2.4.1.2.

For shoe assemblies, values for Mmean and Mhot.

2.4.2.   During production of an approved brake lining assembly type, test samples must demonstrate compliance with the values registered under paragraph 2.4.1 of this annex with the following tolerances:

2.4.2.1.

For disc brake pads:

 

μop ± 15 per cent of registered value;

 

μmin ≥ registered value;

 

μmax ≤ registered value.

2.4.2.2.

For simplex drum brake linings:

 

Mmean ± 20 per cent of registered value;

 

Mhot ≥ registered value.

3.   BRAKE LINING ASSEMBLIES AND DRUM BRAKE LININGS FOR VEHICLES OF CATEGORIES M3, N2, N3, O3, AND O4

3.1.   Equipment

3.1.1.   The machine shall be equipped with a disc brake of the fixed caliper type with a cylinder diameter of 60 mm and a solid (not ventilated) disc having a diameter of 278 ± 2 mm and a thickness of 12 mm ± 0,5 mm. A rectangular piece of the friction material with an area of 44 cm2 ± 0,5 cm2 and a thickness of at least 6 mm shall be attached to the backing plate.

3.1.2.   The disc rotational speed shall be 660 ± 10 1/min without load and shall not fall below 600 1/min on full load.

3.1.3.   The mean contact pressure at the brake lining working surface shall be constant at 75 N/cm2 ± 10 N/cm2.

3.1.4.   The test cycles and brake applications during the cycles to be adjustable and automatic.

3.1.5.   Output torque and working surface temperature shall be recorded.

3.1.6.   Provisions shall be made to direct cooling air across the brake at a rate of 600 ± 60 m3/h.

3.2.   Test procedure

3.2.1.   Sample preparation

The manufacturer's bedding procedure shall ensure a minimum of 80 per cent surface contact area without exceeding a surface temperature of 200 °C.

3.2.2.   Test schedule

The test procedure comprises a number of consecutive braking cycles each containing a number of X braking intervals of 5 seconds brake applied followed by 10 seconds brake released.

No of cycle

Number of brake applications X

Initial brake rotor temperature (°C)

Forced cooling

1

5

100

yes

2

5

increasing ≤ 200

no

3

5

200

no

4

5

increasing ≤ 300

no

5

5

300

no

6

3

250

yes

7

3

200

yes

8

3

150

yes

9

10

100

yes

10

5

increasing ≤ 300

no

11

5

300

no

3.3.   Evaluation of test results

Friction behaviour is determined from the brake torque noted in selected cycles of the test schedule. Brake torque shall be translated to coefficient of friction μ.

The μ-value of each brake application shall be determined as the mean value of the 5 seconds brake applied.

3.3.1.   The operational coefficient of friction μop1 is the mean value of μ recorded for the brake applications in cycles 1 and μop2 is the mean value of μ recorded for the brake applications in cycle 9.

3.3.2.   The maximum coefficient of friction μmax is the highest value of μ recorded in an application during cycles 1 to 11 inclusive.

3.3.3.   The minimum coefficient of friction μmin is the lowest value of μ recorded in an application during cycles 1 to 11 inclusive.

3.4.   Acceptance criteria

3.4.1.   With each application for approval of a replacement brake lining assembly type or a replacement drum brake lining type, there shall be submitted values for μop1, μop2, μmin and μmax.

3.4.2.   During production of an approved replacement brake lining assembly type or replacement drum brake lining type, test samples must demonstrate compliance with the values registered under paragraph 3.4.1 of this annex within the following tolerances:

 

μop1, μop2 ± 15 per cent of the registered value;

 

μmin ≥ registered value;

 

μmax ≤ registered value.

PART B

CONFORMITY OF PRODUCTION FOR BRAKE DISCS AND DRUMS IN CAST IRON

1.   INTRODUCTION

Part B applies to replacement brake discs and drums approved to this Regulation.

2.   REQUIREMENTS

Conformity of production is to be demonstrated through the routine control and documentation of at least the following:

2.1.   Chemical composition

2.2.   Microstructure

The microstructure must be characterised in accordance with ISO 945-1:2006

(a)

Description of the composition of the matrix;

(b)

Description of the graphite shape, distribution and size.

2.3.   Mechanical properties

(a)

Tensile strength measured in accordance with ISO 6892:1998;

(b)

Brinell hardness measured in accordance with ISO 6506-1:2005.

In each case the measurements must be made on samples taken from the actual brake disc or drum.

2.4.   Geometric features

Brake Discs:

(a)

Thickness variation;

(b)

Friction surface run out;

(c)

Friction surface roughness;

(d)

Cheek thickness variation (for ventilated brake discs).

Brake Drums:

(a)

Ovality;

(b)

Friction surface roughness.

2.5.   Acceptance criteria

With each application for approval of a replacement brake disc or drum there shall be submitted a production specification covering:

(a)

Chemical composition and its permitted range, or where appropriate, maximum value, for each element;

(b)

Microstructure as per paragraph 2.2;

(c)

Mechanical properties as per paragraph 2.3 and their permitted range, or where appropriate, minimum value.

During routine production of an approved replacement brake disc or drum production must demonstrate compliance with these registered specifications.

In the case of Geometric features the values prescribed in paragraph 5.3.4.1.1 for brake discs and paragraph 5.3.4.1.2 for brake drums must not be exceeded.

2.6.   Documentation

The documentation shall contain the manufacturer's maximum and minimum permitted values.

2.7.   Test frequency

The measurements prescribed in this annex should be carried out for each production batch.

PART C

CONFORMITY OF PRODUCTION FOR BRAKE DISCS IN MARTENSITIC STAINLESS STEEL

1.   INTRODUCTION

Part C applies to replacement brake discs approved to this Regulation.

2.   REQUIREMENTS

Conformity of production is to be demonstrated through the routine control and documentation of at least the following:

2.1.   Chemical composition

2.2.   Mechanical properties

Rockwell C hardness measured in accordance with ISO 6508-1:2005.

In each case the measurements must be made on samples taken from the actual brake disc or drum.

2.3.   Geometric features

Brake Discs:

(a)

Thickness variation;

(b)

Friction surface run out;

(c)

Friction surface roughness.

2.4.   Acceptance criteria

With each application for approval of a replacement brake disc or drum there shall be submitted a production specification covering:

(a)

Chemical composition and its permitted range, or where appropriate, maximum value, for each element;

(b)

Mechanical properties as per paragraph 2.3 and their permitted range, or where appropriate, minimum value.

During routine production of an approved replacement brake disc or drum production must demonstrate compliance with these registered specifications.

In the case of geometric features the values prescribed in paragraph 5.3.4.1.1 for brake discs must not be exceeded.

2.5.   Documentation

The documentation shall contain the manufacturer's maximum and minimum permitted values.

2.6.   Test frequency

The measurements prescribed in this annex should be carried out for each production batch.


(1)  In the case of vehicles of categories L1 and L2, a lower test speed may be used.

(2)  In the case of vehicles of category L, the temperature shall be limited to 350 °C. If necessary, the number of applications per cycle must be reduced accordingly. However, in this case, the number of cycles shall be increased to keep the total number of applications constant.

(3)  Values in brackets for vehicles of category L.


ANNEX 10

ILLUSTRATIONS

1.   Brake disc design types for M, N and O categories (examples)

Flat type

Image

Cylinder type

Image

Pot type

Image

Conical type

Image

Double flange type

Image

B

Diameter of mounting bolt holes (or thread size in case of threaded holes)

D

External diameter of disc

F(i)

Inner diameter of friction surface (inboard)

F(o)

Inner diameter of friction surface (outboard)

H

Mounting flange thickness

L(k)

Width of cooling (ventilating) channel

S(new)

Disc thickness (nominal)

S(min)

Disc thickness (minimal permissible wear thickness)

T(i)

Internal diameter (mounting spigot diameter)

T(k)

‘x’ number of mounting bolt holes and pitch circle diameter

T(t)

Overall length of disc

2.   Brake drum for M, N and O categories (examples)

Image

A

Inside diameter of the drum

B

Friction surface width

C

‘x’ number of mounting bolt holes and pitch circle diameter

D

Mounting spigot diameter

E

Outside drum width

F

Mounting flange thickness

G

Outside diameter of the drum

H

Casing diameter

I

Diameter of the mounting bolt holes

3.   Brake disc design types for L1, L2, L3, L4 and L5 categories (examples)

One-piece type: brake disc with braking surface and bell made in a single piece and, therefore, of the same material

Image

Composed fixed type: brake disc having the braking ring made of steel, while the bell is of other material, generally aluminium; the 2 components are rigidly bounded by a screwed or riveted connection.

Image

Floating type: brake disc having the braking ring radially released from the bell, in order to allow its thermal expansion.

Image

B

Diameter of mounting bolt holes (or thread size in case of threaded holes)

D

External diameter of disc

F(i)

Inner diameter of friction surface (inboard)

F(o)

Inner diameter of friction surface (outboard)

H

Mounting flange thickness

S(new)

Disc thickness (nominal)

S(min)

Disc thickness (minimal permissible wear thickness)

T(i)

Internal diameter (mounting spigot diameter)

T(k)

‘x’ number of mounting bolt holes and pitch circle diameter

T(t)

Overall length of disc


ANNEX 11

REQUIREMENTS FOR REPLACEMENT BRAKE DISCS OR BRAKE DRUMS FOR VEHICLES OF CATEGORIES M AND N

1.   TEST OVERVIEW

The tests required in paragraph 5.3 of this Regulation are detailed as follows according to the vehicle category:

Table A11/1A

Vehicles of categories M1, N1

 

Vehicle test

Alternative dynamometer test

Performance tests according to Regulations Nos 13/13-H

2.2.1.

Type 0, engine disconnected

3.4.1.

Type 0 (simulation engine disconnected)

2.2.2.

Type 0, engine connected

3.4.4.

Brake tests simulation Type 0, engine connected

Speed and load analog to item 2.2.2

2.2.3.

Type I

3.4.2.

Type I

2.3.

Parking braking system (if applicable)

Comparison test with original part

2.4.

Testing the dynamic frictional properties (comparison test conducted on the individual axles)

3.5.

Testing the dynamic frictional properties (comparison test conducted on the individual wheel brake)

Integrity tests

No vehicle test — use dynamometer test

4.1.

Brake discs

4.1.1.

Brake disc thermal fatigue test

4.1.2.

Brake disc high load test

4.2.

Brake drums

4.2.1.

Brake drum thermal fatigue test

4.2.2.

Brake drum high load test


Table A11/1B

Vehicles of categories M2, M3, N2, N3

 

Vehicle test

Alternative dynamometer test

Performance tests according to Regulation No 13

2.2.1.

Type 0, engine disconnected

3.4.1.

Type 0

2.2.3.

Type I

3.4.2.

Type I

2.2.4.

Type II

3.4.3.

Type II

2.3.

Parking braking system (if required)

Comparison test with original part

2.4.

Testing the dynamic frictional properties (comparison test conducted on the individual axles)

3.5.

Testing the dynamic frictional properties (comparison test conducted on the individual wheel brake)

Integrity tests

No vehicle test — use dynamometer test

4.1.

Brake discs

4.1.1.

Thermal fatigue

4.1.2.

High load test

4.2.

Brake drums

4.2.1.

Thermal fatigue

4.2.2.

High load test

2.   VERIFICATION OF THE VEHICLE TEST REQUIREMENTS

2.1.   Test vehicle

A vehicle that is representative for the selected test group (see definition in paragraph 5.3.6 of this Regulation) in respect of which an approval or parts report for a replacement brake disc/drum is applied for shall be fitted with this replacement brake disc/drum as well as be equipped with test devices for testing the brakes pursuant to the provisions of Regulation No 13 or 13-H.

The replacement brake disc/drum shall be fitted to the axle in question together with an accompanying brake lining which has been type approved according to Regulation No 13 or 13-H or 90 available from the vehicle or axle manufacturer.

Unless a uniform procedure is laid down for how braking is to be effected, the test shall be carried out following agreement with the Technical Service. All the tests listed below shall be carried out on brakes that have been bedded in.

The same ‘bedding-in’ programme shall be used for both replacement and original brake discs and drums.

2.2.   Service braking system

2.2.1.   Type 0 brake tests, engine disconnected, vehicle laden

This test shall be carried out pursuant to Regulation No 13, Annex 4, paragraph 1.4.2 or Regulation No 13-H, Annex 3, paragraph 1.4.2.

2.2.2.   Type 0 brake tests, engine connected, vehicle unladen and laden

This test shall be carried out pursuant to Regulation No 13, Annex 4, paragraph 1.4.3 (supplementary test, how the vehicle behaves when braking from high speed) or Regulation No 13-H, Annex 3, paragraph 1.4.3.

2.2.3.   Type I brake tests

This test shall be carried out pursuant to Regulation No 13, Annex 4, paragraph 1.5.1 or Regulation No 13-H, Annex 3, paragraph 1.5.1.

At the end of the Type I brake test, the performance when the brakes are hot is to be satisfied pursuant to Regulation No 13, Annex 4, paragraph 1.5.3 or Regulation No 13-H, Annex 3, paragraph 1.5.2.

2.2.4.   Type II brake tests

This test shall be carried out pursuant to Regulation No 13, Annex 4, paragraph 1.6.

2.3.   Parking braking system (if required)

2.3.1.   If the service brake system and the parking brake system use a common disc or drum friction surface, it is not necessary to conduct a specific parking brake system test. The satisfactory achievement of the Type 0 laden test shall be taken as meeting the parking brake system requirements.

2.3.2.   Static test with 18 per cent gradient, vehicle laden

2.3.3.   The vehicle shall satisfy all the relevant provisions laid down in Regulation No 13, Annex 4, paragraph 2.3 or Regulation No 13-H, Annex 3, paragraph 2.3 that apply to this category of vehicle.

2.4.   Testing the dynamic frictional properties (comparison test conducted on the individual axles)

For this test, the vehicle shall be laden and all brake applications carried out on a flat road with the engine disconnected.

The service braking system of the vehicle shall be provided with a device that separates the front-wheel brakes from the rear-wheel brakes so that they can always be operated independently of one another.

If an approval or a part report is required in connection with a replacement brake disc/drum for the front-wheel brakes, the rear-wheel brakes shall remain inoperative throughout the test.

If an approval or a part report is required in connection with a replacement brake disc/drum for the rear-wheel brakes, the front-wheel brakes shall remain inoperative throughout the test.

2.4.1.   Performance comparison test when the brakes are cold

With cold brakes, the performance of the replacement brake disc/drum shall be compared with the original equivalents by comparing the results of the test below.

2.4.1.1.   Using the replacement brake disc/drum, at least six consecutive brake applications with different, gradually increasing control forces or brake pressures are carried out as part of the process up to the point at which the wheels lock, or up to a mean fully developed deceleration of 6 m/s2 (M1, M2, N1) or 3,5 m/s2 (M3, N2, N3) or up to the maximum control force or line pressure permitted for this category of vehicle, in which connection the initial speed for the testing of front or rear axle brake discs and drums is as per the table below:

Table A11/2.4.1.1

Vehicle category

Test speed in km/h

Front axle

Rear axle

M1

70

45

M2

50

40

N1

65

50

M3, N2, N3

45

45

Prior to each brake application, the initial temperature of the brake disc/drum shall be ≤ 100 °C.

2.4.1.2.   The brake test described in paragraph 2.4.1.1 also has to be carried out using the original brake disc/drum.

2.4.1.3.   The dynamic frictional properties of the replacement brake disc/drum can be regarded as similar to those of the original brake disc/drum, provided the values attained in relation to the mean fully developed deceleration at the same operating pressures or control forces in the region of the upper 2/3 of the curve generated do not deviate by either ± 10 per cent or ± 0,4 m/s2 from those of the original brake disc/drum.

3.   INERTIA DYNAMOMETER TEST

3.1.   Equipping the dynamometer

For testing purposes, the dynamometer shall be fitted out with the original brake caliper or wheel brake of the vehicle(s) concerned. The inertia dynamometer shall be equipped with a constant torque device and equipment for recording rotational speed, brake pressure, the number of revolutions after braking has commenced, brake torque, the braking period and the temperature of the brake discs/drums on a continuous basis.

3.2.   Test conditions

3.2.1.   Inertia mass of the inertia dynamometer

The inertia mass of the inertia dynamometer shall be set as close as possible, with a permissible variation of ± 5 per cent, to the theoretically required value which corresponds to that part of the total inertia of the vehicle braked by the appropriate wheel. The formula used for calculation purposes is as follows:

I = m · rdyn 2

Where:

I

=

rotary inertia (kgm2);

rdyn

=

dynamic rolling radius of the tyre (m);

m

=

test mass (part of the maximum mass of the vehicle braked by the appropriate wheel) as stipulated by this Regulation.

3.2.1.1.   Dynamic rolling radius

In calculating the inertia mass, the dynamic rolling radius (rdyn) of the largest tyre authorised for the vehicle (or the axle) shall be taken into account.

3.2.1.2.   Test mass

The test mass for calculating the inertia mass shall be as follows:

(a)

When testing front axle brake discs and drums:

Formula

mveh

=

max. permitted mass of the vehicle

nfront

=

number of front axles

(b)

When testing rear axle brake discs and drums:

Formula

mveh

=

max. permitted mass of the vehicle

nrear

=

number of rear axles

Table A11/3.2.1.2

Vehicle category

Percentage by mass m to be taken into account

X values (front axle)

Y values (rear axle)

M1

77

32

M2

69

44

N1

66

39

M3, N2, N3

55

55

(c)

When testing brake discs and drums for vehicles with more than 2 axles:

m = 0,55 maxle

maxle: maximum technically permitted mass of the axle

3.2.2.   The initial rotational speed of the dynamometer shall correspond to the linear speed of the vehicle at 80 km/h (M1, N1) or 60 km/h (M2, M3, N2, N3) based on the mean of the dynamic rolling radii of the largest and smallest tyre of the authorised tyre sizes.

3.2.3.   Cooling

The cooling may be carried out either to paragraphs 3.2.3.1 or 3.2.3.2.

3.2.3.1.   Test carried out with a complete wheel (rim and tyre), mounted on the moving part of the brake, as it would be on the vehicle (worst case).

With respect to the Type I and Type II tests air cooling at a velocity and air flow direction simulating actual conditions may be used during the heating runs, the speed of the air flow being vAir = 0,33 v

Where:

v

=

vehicle test speed at initiation of braking.

In other cases cooling air is not restricted.

The temperature of the cooling air shall be the ambient temperature.

3.2.3.2.   Test carried out without a rim

With respect to the Type I and Type II tests during the heating runs no cooling is allowed.

In other cases cooling air is not restricted.

3.2.4.   Preparation of the brake

3.2.4.1.   Disc brakes

The test is conducted using a new disc with new brake lining assemblies which have been type approved according to Regulation No 13, 13-H or 90 (in the condition as mounted on the vehicle, e.g. protective grease removed).

3.2.4.2.   Drum brakes

The test is conducted using a new drum with new linings assemblies which have been type approved according to Regulation No 13, 13-H or 90 (if applicable, protective grease removed).

Machining of the linings to achieve good lining to drum contact is permissible.

3.3.   Alternative dynamometer performance test

Table A11/3.3

1a.

In the case of vehicles of categories M1, M2, N1

See bedding-in (burnishing) procedure as described in Annex 3, paragraph 2.2.2.3

1b.

In the case of vehicles of categories M3, N2, N3

Bedding-in (burnishing):

100 (disc) or 200 (drum) brake applications

Ti = 150 °C (disc) or 100 °C (drum)

vi = 60 km/h

dm = 1 and 2 m/s2 alternating

2.

Dynamic friction properties, see paragraph 3.5.1 of this annex

3.

Brake test Type 0 (simulation engine disconnected), see paragraph 3.4.1 of this annex

4.

Brake test Type I, see paragraph 3.4.2 of this annex

5.

Re-burnishing:

10 (disc) or 20 (drum) brake applications

Ti = 150 °C (disc) or 100 °C (drum)

vi = 60 km/h,

dm = 1 and 2 m/s2 alternating

6.

Brake test Type 0 (simulation engine disconnected), see paragraph 3.4.1 of this annex

7.

Brake test Type 0 (simulation engine connected), see paragraph 3.4.4 of this annex

8.

Re-burnishing: (like No 5)

9.

Dynamic friction properties, see paragraph 3.5.1 of this annex

10.

Brake test Type II (if applicable), see paragraph 3.4.3 of this annex

11.

Re-burnishing: (like No 5)

 

Steps 12 to 19 are optional (if activation is not sufficient)

12.

Brake test Type 0, see paragraph 3.4.1 of this annex

13.

Brake test Type I, see paragraph 3.4.2 of this annex

14.

Re-burnishing: (like item 5)

15.

Dynamic friction properties see paragraph 3.5.1 of this annex

16.

Brake tests Type 0 (simulation engine connected), see paragraph 3.4.4 of this annex

17.

Re-burnishing: (like item 5)

18.

Dynamic friction properties see paragraph 3.5.1 of this annex

19.

Re-burnishing: (like item 5)

3.4.   Service braking system

3.4.1.   Brake test Type-0 test (simulation engine disconnected)

From the initial rotational speed equivalent to 100 km/h (M1/N1), or 60 km/h (M2/M3/N2/N3) and at a brake temperature ≤ 100 °C at the start of each application, perform three brake applications at the same brake actuating pressure such that a mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a mean brake torque based on the braking distance equivalent to the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) of at least 6,43 m/s2 for vehicles of categories M1/N1 or 5 m/s2 for vehicles of categories M2/M3/N2/N3 is achieved.

In the case of pneumatic braking systems the brake actuator pressure shall not exceed the pressure that is permanently guaranteed by the braking system of the vehicle type(s) (e.g. cut in pressure of the compressor), and the brake input torque (C) shall not exceed the maximum permissible brake input torque (Cmax) by using the smallest brake chamber of the vehicle type(s).

The average of the three results shall be taken as the cold performance.

3.4.1.1.   Rolling resistance

The rolling resistance is taken to equate to a deceleration of 0,1 m/s2.

3.4.2.   Brake test Type I

3.4.2.1.   Heating procedure

3.4.2.1.1.   According to the vehicle category make consecutive snub applications of the brake in accordance with the conditions laid down in the following table. Every brake application shall be conducted in that way that a constant deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a constant brake torque equivalent to the deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) of 3 m/s2 will be achieved.

The first brake application shall commence at a brake temperature of ≤ 100 °C.

Vehicle Category

v1 [km/h]

v2 [km/h]

Δt [sec]

N

M1

80 % vmax ≤ 120 km/h

0,5 v1

45

15

M2

80 % vmax ≤ 100 km/h

0,5 v1

55

15

N1

80 % vmax ≤ 120 km/h

0,5 v1

45

15

M3/N2/N3

80 % vmax ≤ 60 km/h

0,5 v1

60

20

where:

v1

=

initial speed, at beginning of braking

v2

=

speed at end of braking

vmax

=

maximum speed of vehicle

n

=

number of brake applications

Δt

=

duration of a braking cycle: time elapsing between the initiation of one brake application and the initiation of the next.

3.4.2.1.2.   In the case of brakes equipped with automatic brake adjustment devices, the adjustment of the brakes shall, prior to the Type I test above, be set according to the following procedures as appropriate:

3.4.2.1.2.1.   In the case of air-operated brakes, the adjustment of the brakes shall be such as to enable the automatic brake adjustment device to function. For this purpose the actuator stroke shall be adjusted to:

s0 ≥ 1,1 · sre-adjust

(the upper limit shall not exceed a value recommended by the manufacturer)

where:

sre-adjust

is the readjustment stroke according to the specification of the manufacturer of the automatic brake adjustment device, i.e. the stroke, where it starts to readjust the running clearance of the brake with an actuator pressure of 15 per cent of the brake system operating pressure but not less than 100 kPa.

Where, by agreement with the Technical Service, it is impractical to measure the actuator stroke, the initial setting shall be agreed with the Technical Service.

From the above condition the brake shall be operated with an actuator pressure of 30 per cent of the brake system operating pressure but not less than 200 kPa 50 times in succession. This shall be followed by a single brake application with an actuator pressure of ≥ 650 kPa.

3.4.2.1.2.2.   In the case of hydraulically operated disc brakes, no setting requirements are deemed necessary.

3.4.2.1.2.3.   In the case of hydraulically operated drum brakes, the adjustment of the brakes shall be as specified by the manufacturer.

3.4.2.2.   Hot performance

Not later than 60 seconds after completion of the heating procedure the hot performance shall be measured under the conditions of speed and pressure applied in the Type 0 test.

For vehicles of category M1 and N1 the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a mean brake torque based on the braking distance equivalent to the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) must not be less than 75 per cent of the value achieved with the cold brake in the Type 0 test nor less than 4,8 m/s2.

For vehicles of category M2, M3, N2 and N3 the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a mean brake torque based on the braking distance equivalent to the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) must not be less than 60 per cent of the value achieved with the cold brake in the Type 0 test nor less than 4 m/s2.

3.4.2.3.   Free running test

In the case of brakes equipped with automatic brake adjustment devices, after completing the tests defined in paragraph 3.4.2.2 above the brake shall be allowed to cool to a temperature representative of a cold brake (i.e. ≤ 100 °C) and it shall be verified that the brake is capable of free running by fulfilling one of the following conditions:

(a)

The disc or drum is running freely (i.e. may be rotated by hand);

(b)

When the disc or drum is rotated at a rotational speed equivalent to a constant speed of v = 60 km/h with the brake released the asymptotic temperatures shall not exceed a drum/disc temperature increase of 80 °C.

3.4.3.   Brake test Type II

3.4.3.1.   Heating procedure

3.4.3.1.1.   The brakes shall be heated from an initial temperature of ≤ 100 °C by dragging the brake at a constant rotational speed equivalent to 30 km/h with a constant braking torque corresponding to a deceleration, excluding rolling resistance, of 0,15 m/s2 for a period of 12 minutes.

3.4.3.1.2.   In the case of brakes equipped with automatic brake adjustment devices the adjustment of the brake shall, prior to the Type II test above, be set according to the procedure as laid down in paragraph 3.4.2.1.2 of this annex.

3.4.3.2.   Hot performance

Not later than 60 seconds after completion of the heating procedure the hot performance shall be measured under the conditions of speed and brake actuating pressure applied in the Type 0 test.

With the heated brake the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or the mean brake torque based on the braking distance equivalent the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) must not be less than 3,75 m/s2.

3.4.3.3.   Free running test

See paragraph 3.4.2.3 of this annex

3.4.4.   Brake test Type-0 test (simulation engine connected)

Instead of the Type 0 test with engine connected, for the purpose of this Regulation it is acceptable to carry out a test simulating for the laden condition (see paragraph 3.2 of this annex).

Vehicle Category

Initial Speed - v1 (km/h)

M1

80 % vmax ≤ 160 km/h

M2

100 km/h

M3

90 km/h

N1

80 % vmax ≤ 160 km/h

N2

100 km/h

N3

90 km/h

where:

v1

=

initial speed, at beginning of braking

vmax

=

maximum speed of vehicle

From an initial rotational speed equivalent to the vehicle speeds in the table above and at a brake temperature of ≤ 100 °C at the start of each application make three brake applications at the same brake actuating pressure such that a mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a mean brake torque based on the braking distance equivalent to the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) of at least 5,76 m/s2, for vehicles of categories M1 and N1 or 4 m/s2, for vehicles of categories M2, M3, N2 and N3 is achieved.

The average of the three results shall be taken as the cold performance

3.5.   Testing the dynamic frictional properties (comparison test conducted on the individual wheel brake)

With cold brakes, the performance of the replacement brake disc/drum shall be compared with the original equivalents by comparing the results of the test below.

3.5.1.   Using the replacement brake disc/drum, at least six consecutive brake applications with different, gradually increasing control forces or brake pressures are carried out as part of the process up to a mean fully developed deceleration of 6 m/s2 (M1, M2, N1) or 5 m/s2 (M3, N2, N3). The control forces or line pressure have not to exceed the maximum allowed control forces or line pressure that is permanently guaranteed by the braking system of the vehicle (e. g. cut in pressure of the compressor). Prior to each brake application, the initial temperature of the brake disc/drum shall be ≤ 100 °C.

3.5.2.   The brake test described in paragraph 3.5.1 also has to be carried out using the original brake disc/drum.

3.5.3.   The dynamic frictional properties at the end of the procedure (step 9 or 18) of the replacement brake disc/drum can be regarded as similar to those of the original brake disc/drum, provided the values attained in relation to the mean fully developed deceleration at the same operating pressures or control forces in the region of the upper 2/3 of the curve generated do not deviate by either ± 8 per cent or ± 0,4 m/s2 from those of the original brake disc/drum.

4.   INTEGRITY TESTS USING AN INERTIA DYNAMOMETER

The tests are conducted in accordance with paragraph 4.1 (discs) or 4.2 (drums).

A single test per test group is required unless the replacement part does not achieve the required number of cycles before damage or failure (see paragraph 4.1.1.1.3 or 4.1.1.2.3 of this annex).

The brake should be installed on the dynamometer in accordance with its fitting position on the vehicle (rigidly mounted brakes or those installed by means of a stub axle are exempt).

The temperature of the brake disc/brake drum should be measured in as close proximity to the friction rubbing surface as possible. The temperature measurement should be recorded and the method and measuring point shall be the same for all tests.

If cooling air is used during a brake application or between brake applications inside one braking cycle, the speed of the airflow at the brake shall be limited to vair = 0,33 v

Where:

v

=

vehicle test speed at initiation of braking.

In other cases cooling air is not restricted.

The temperature of the cooling air shall be the ambient temperature.

4.1.   Brake discs

4.1.1.   Brake disc thermal fatigue test

This test is conducted using a new disc, an original brake caliper of the vehicle(s) concerned and new brake lining assemblies of the vehicle(s) concerned which have been type approved according to Regulation No 13, 13-H or 90 (in the condition as mounted on the vehicle, e.g. protective grease removed).

Worn brake linings may be replaced during the test if necessary.

4.1.1.1.   Vehicles of categories M1, N1

4.1.1.1.1.   Test conditions (brake disc thermal fatigue test)

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 11.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

4.1.1.1.2.   Test program (brake disc thermal fatigue test)

The new brake linings and the new disc shall be fitted to the relevant brakes and bedded (burnished) according to the procedure of Annex 3, paragraph 2.2.2.3. If any new brake linings are required in order to complete the test, they shall be bedded (burnished) according to the same procedure:

Table A11/4.1.1.1.2

Test provision

Thermal fatigue test

Vehicle categories

M1/N1

Type of braking

Sequential brake applications

Braking interval (= ttotal)

70 s

Number of brake applications per cycle

2

Brake torque set to produce a deceleration of

5,0 m/s2

Total number of braking cycles

100 or 150 (see 4.1.1.1.3)

Brake applications

 

from

vmax

to

20 km/h

Initial temperature of the 1st brake application in each cycle

≤ 100 °C

where:

vmax

the vmax to be used to test the replacement part is that corresponding to the vehicle which has the highest ratio of kinetic energy to disc mass

tbra

actual braking period during the application

tacc

minimum acceleration time in accordance with the accelerating power of the respective vehicle

trest

rest period

ttotal

Braking interval (tbra + tacc + trest)

4.1.1.1.3.   Test result (brake disc thermal fatigue test)

The test is regarded as having been passed if 150 or more cycles are completed without damage or failure.

If less than 150 cycles but more than 100 cycles are completed without damage or failure then the test must be repeated on a new replacement part. Under these circumstances both tests must complete more than 100 cycles without damage or failure for the part to have passed the test.

If less than 100 cycles are completed before damage or failure then a test should be conducted on the original part and the results compared. If the damage or failure point is no worse than the number of cycles of the original part -10 per cent then the test is regarded as having been passed.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.1.1.2.   Vehicles of categories M2, M3, N2 and N3

4.1.1.2.1.   Test conditions (brake disc thermal fatigue test)

4.1.1.2.1.1.   Vehicles with a maximum permissible mass > 7,5 t

By means of the following Test program, brake discs are tested as components of the braking system. It does not imitate actual driving conditions but is understood as being purely a component test. The parameters listed below in Table A11/4.1.1.2.1.1 cover the brakes that are presently used as a rule on vehicles with a maximum permitted mass > 7,5 t.

Table A11/4.1.1.2.1.1

Outside disc diameter

Test parameter

Test parameter

Example of equipment

 

Test mass m [kg]

rdyn [m]

‘Brake size’/smallest possible rim size

320-350

3 100

0,386

17,5″

351-390

4 500

0,445

19,5″

391-440

5 300

0,527

22,5″

> 440 (1)

 (1)

 (1)

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraph 3.2.1 of Annex 11 in conjunction with the parameters specified in the table above (test mass and rdyn).

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the dynamic tyre rolling radii specified in Table A11/4.1.1.2.1.1.

4.1.1.2.1.2.   Vehicles with a maximum permissible mass > 3,5 t and ≤ 7,5 t

As regards vehicles with a maximum permitted mass > 3,5 t and ≤ 7,5 t in respect of which the parameters listed in Table A11/4.1.1.2.1.1 do not apply, the test parameters shall be selected in such a way that the worst case scenario that formed the basis of the range of use of the replacement brake disc (maximum permitted vehicle mass, maximum tyre equipment size) is covered.

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 11.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

4.1.1.2.2.   Test program (brake disc thermal fatigue test)

Table A11/4.1.1.2.2

‘Bedding-in’ procedure

100 brake applications

Initial speed: 60 km/h

Final speed: 30 km/h

dm alternating between 1 m/s2 and 2 m/s2

Initial temperature: ≤ 300 °C (beginning at room temperature)

1.

Conditioned braking

10 brake applications from 60 to 30 km/h

dm alternating between 1 m/s2 and 2 m/s2

Initial temperature: ≤ 250 °C

2.

High-speed braking

2 Brake applications from 130 to 80 km/h

dm 3 m/s2

Initial temperature: ≤ 100 °C

3.

Conditioned braking

See test stage 1

4.

High-speed braking

See test stage 2

5.

Conditioned braking

See test stage 1

6.

Continuous braking (1)

5 Brake applications at a constant speed of: 85 km/h

Decelerating torque corresponding to 0,5 m/s2

Braking period 60 s

Initial temperature: ≤ 80 °C

7.

Conditioned braking

See test stage 1

8.

Continuous braking (2)

5 Brake applications at a constant speed of: 85 km/h

Decelerating torque corresponding to 1,0 m/s2

Braking period 40 s

Initial temperature: ≤ 80 °C

9.

Repeat test stages 1 to 8:

9 or 14 times (whichever is applicable) — see paragraph 4.1.1.2.3

dm

distance-related mean deceleration.

4.1.1.2.3.   Test result (brake disc thermal fatigue test)

The test is regarded as having been passed if 15 or more cycles are completed without damage or failure.

If less than 15 cycles but more than 10 cycles are completed without damage or failure then the test must be repeated on a new replacement part. Under these circumstances both tests must complete more than 10 cycles without damage or failure for the part to have passed the test.

If less than 10 cycles are completed before damage or failure then a test should be conducted on the original part and the results compared. If the damage or failure point is no worse than the number of cycles of the original part then the test is regarded as having been passed.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction ring;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.1.2.   Brake disc high load test

In the case of interchangeable parts the high load test shall be conducted on a new brake disc or on the same brake disc which has been used for the alternative dynamometer test (see paragraph 3.3 of this annex).

In the case of equivalent parts the high load test shall be conducted using a new disc, an original brake caliper of the vehicle(s) concerned and new brake lining assemblies of the vehicle(s) concerned which have been type approved according to Regulation No 13, 13-H or 90 (in the condition as mounted on the vehicle, e.g. protective grease removed).

Worn brake linings may be replaced during the test if necessary.

4.1.2.1.   Vehicles of categories M1, N1

4.1.2.1.1.   Test conditions (brake disc high load test)

See paragraph 4.1.1.1.1 above.

4.1.2.1.2.   Test program (brake disc high load test)

The new brake linings and the new disc shall be fitted to the relevant brakes and bedded (burnished) according to the procedure of Annex 3, paragraph 2.2.2.3. If any new brake linings are required in order to complete the test, they shall be bedded (burnished) according to the same procedure:

Table A11/4.1.2.1.2

Test provision

High load test

Vehicle categories

M1/N1

Type of braking

Single brake applications

Number of brake applications

70

Initial temperature at the beginning of braking

≤ 100 °C

Brake torque set to produce a deceleration of

10,0 m/s2 with a pressure ≤ 16 000 kPa or p = 16 000 kPa (< 10,0 m/s2)

Brake applications

 

from

vmax

to

10 km/h

Where the vmax to be used to test the replacement part is that corresponding to the vehicle which has the highest ratio of kinetic energy to disc mass.

4.1.2.1.3.   Test result (brake disc high load test)

The test is regarded as having been passed if 70 or more brake applications are completed without damage or failure.

If less than 70 brake applications are completed before damage or failure then a test should be conducted on the original part and the results compared. If the damage or failure point is no worse than the number of cycles of the original part – 10 per cent then the test is regarded as having been passed.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.1.2.2.   Vehicles of categories M2, M3, N2 and N3

4.1.2.2.1.   Test conditions (brake disc high load test)

See paragraph 4.1.1.2.1 above.

4.1.2.2.2.   Test program (brake disc high load test)

Bedding in accordance with Table A11/4.1.1.2.2.

500 brake applications are carried out from a speed of 50 km/h to 10 km/h with a brake torque of 90 per cent of the maximum brake torque applicable to the relevant brake caliper.

Initial temperature: ≤ 200 °C

4.1.2.2.3.   Test result (brake disc high load test)

The test is regarded as having been passed if the brake disc does not exhibit any signs of fracture after 500 brake applications. The test shall be considered valid provided the required maximum torque is achieved for at least 90 per cent of the brake applications under the condition that for the other 10 per cent the maximum pressure is applied.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.2.   Brake drums

4.2.1.   Brake drum thermal fatigue test

The test is conducted using a new drum with new linings assemblies which have been type approved according to Regulation No 13, 13-H or 90 (if applicable, protective grease removed).

Machining of the linings to achieve good lining to drum contact is permissible.

4.2.1.1.   Vehicles of categories M1 and N1

4.2.1.1.1.   Test conditions (brake drum thermal fatigue test)

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 11.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

4.2.1.1.2.   Test program (brake drum thermal fatigue test)

The thermal fatigue requirements for brake drums are covered by the high load tests of paragraph 4.2.2.1.2.

4.2.1.1.3.   Test result (brake drum thermal fatigue)

See paragraph 4.2.2.1.3.

4.2.1.2.   Vehicles of categories M2, M3, N2, N3

4.2.1.2.1.   Test conditions (brake drum thermal fatigue test)

4.2.1.2.1.1.   Vehicles with a maximum permissible mass > 7,5 t

By means of the following test programme, brake drums are tested as components of the braking system. It does not imitate actual driving conditions but is understood as being purely a component test. The parameters listed below in Table A11/4.2.1.2.1.1 cover the brakes that are presently used as a rule on vehicles with a maximum permitted mass > 7,5 t.

Table A11/4.2.1.2.1.1

Inner drum diameter

[mm]

Lining width

Typical rim diameter

< 130 mm

130-190 mm

> 190 mm

Test mass [kg]

Tyre radius

[m]

Test mass [kg]

Tyre radius

[m]

Test mass [kg]

Tyre radius

[m]

< 330

2 750

0,402

3 200

0,390

5 500

0,402

17,5″

330-390

 (2)

 (2)

3 400

0,480

5 500

0,516

19,5″

391-430

3 400

0,510

4 500

0,527

5 500

0,543

22,5″

> 430

 (2)

 (2)

 (2)

 (2)

 (2)

 (2)

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraph 3.2.1 of Annex 11 in conjunction with the parameters specified in the table above (test mass and rdyn).

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the dynamic tyre rolling radii specified in Table A11/4.2.1.2.1.1.

4.2.1.2.1.2.   Vehicles with a maximum permissible mass > 3,5 t and ≤ 7,5 t

As regards vehicles with a maximum permitted mass > 3,5 t and ≤ 7,5 t in respect of which the parameters listed in Table A11/4.1.1.2.1.1 do not apply, the test parameters shall be selected in such a way that the worst case scenario that formed the basis of the range of use of the replacement brake drum (maximum permitted vehicle mass, maximum tyre equipment size) is covered.

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 11.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

4.2.1.2.2.   Test program (brake drum thermal fatigue test)

Table A11/4.2.1.2.2

Test provision

Thermal fatigue test

‘Bedding in’ procedure

200 brake applications

Initial speed: 60 km/h

Final speed: 5 km/h

dm alternating between 1 m/s2 and 2 m/s2

Initial temperature: ≤ 200 °C (beginning at room temperature)

Alternatively bedding may be omitted if the applicant for approval does not consider it to be necessary

Type of braking

Sequential brake applications

Number of brake applications

250 or 300 (whichever is applicable) — see paragraph 4.2.1.2.3

NB: The test is interrupted when a through crack appears.

Brake torque set to produce a deceleration of

3,0 m/s2

Brake applications

 

from

130

to

80 km/h

Initial temperature of each brake application

≤ 50 °C

Cooling pursuant to paragraph 3.2.3

Permitted

4.2.1.2.3.   Test result (brake drum thermal fatigue test)

The test is regarded as having been passed if 300 or more brake applications are completed without damage or failure.

If less than 300 brake applications but more than 250 brake applications are completed without damage or failure then the Technical Service must repeat the test on a new replacement part. Under these circumstances both tests must complete more than 250 brake applications without damage or failure for the part to have passed the test.

If less than 250 brake applications are completed before damage or failure then a test should be conducted on the original part and the results compared — if the damage or failure point is no worse than the original part then the test is regarded as having been passed.

Damage in this context means:

(a)

Cracks on the friction surface which are longer than 2/3 of the axial width of the friction surface;

(b)

Cracks on the friction surface which reach the axial outer end of the drum;

(c)

Through-cracking of the drum;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.2.2.   Brake drum high load test

In the case of interchangeable parts the high load test shall be conducted on a new brake drum or on the same brake drum which has been used for the alternative dynamometer test (see paragraph 3.3 of this annex.).

In the case of equivalent parts the high load test shall be conducted using a new drum, an original brake of the vehicle(s) concerned and new brake lining assemblies of the vehicle(s) concerned which have been type approved according to Regulation No 13, 13-H or 90 (in the condition as mounted on the vehicle, e.g. protective grease removed).

Worn brake linings may be replaced during the test if necessary.

4.2.2.1.   Vehicles of categories M1 and N1

4.2.2.1.1.   Test conditions (brake drum high load test)

See paragraph 4.2.1.1.1 above.

4.2.2.1.2.   Test program (brake drum high load test)

This test covers also the requirements of the thermal fatigue test (see paragraph 4.2.1.1.2).

The test has to be carried out according to the following table:

Table A11/4.2.2.1.2

‘Bedding in’ procedure

Make 100 consecutive snub applications with v1 = 80 km/h and v2 = 10 km/h and an initial temperature of ≤ 100 °C.

The deceleration of the first application shall be constant 1,5 m/s2. From the second up to the last application the pressure shall be constant and equivalent to the average of the first application.

The bedding should be continued until a minimum of 80 per cent lining to drum contact is achieved.

Test provision

Brake drum high load test

Type of braking

Single brake applications

Number of brake applications

100

Initial temperature at the beginning of braking

≤ 100 °C

Brake torque set to produce a deceleration of

10,0 m/s2 with a pressure ≤ 16 000 kPa or p = 16 000 kPa (< 10,0 m/s2)

Brake applications

 

from

vmax

to

10 km/h

Where the vmax to be used to test the replacement part is that corresponding to the vehicle which has the highest ratio of kinetic energy to disc mass.

4.2.2.1.3.   Test result (brake drum high load test)

The test is regarded as having been passed if 100 or more brake applications are completed without damage or failure.

If less than 100 brake applications are completed before damage or failure then a test should be conducted on the original part and the results compared. If the damage or failure point is no worse than the number of cycles of the original part – 10 per cent then the test is regarded as having been passed.

Damage in this context means:

(a)

Cracks on the friction surface which are longer than 2/3 of the axial width of the friction surface;

(b)

Cracks on the friction surface which reach the axial outer end of the drum;

(c)

Through-cracking of the drum;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.2.2.2.   Vehicles of categories M2, M3, N2 and N3

4.2.2.2.1.   Test conditions (brake drum high load test)

See above paragraph 4.2.1.2.1.

4.2.2.2.2.   Test program (brake drum high load test)

Table A11/4.2.2.2.2

Test provision

High load test

‘Bedding in’ procedure

200 brake applications

Initial speed: 60 km/h

Final speed: 5 km/h

dm alternating between 1 m/s2 and 2 m/s2

Initial temperature: ≤ 200 °C (beginning at room temperature)

Alternatively bedding may be omitted if the applicant for approval does not consider it to be necessary

Total number of brake applications

150

Initial brake drum temperature at each brake application

≤ 100 °C

Brake applications

 

from

60 km/h

to

≤ 5 km/h

Brake torque set to produce a deceleration of

6 m/s2

Cooling (also deviating from paragraph 3.2.3 of this annex)

Permitted

4.2.2.2.3.   Test result (brake drum high load test)

The test result is positive provided the brake drum does not fracture.

The test shall be considered valid provided the required maximum torque is achieved for at least 90 per cent of the brake applications under the condition that for the other 10 per cent the maximum pressure is applied.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.


(1)  The test mass and the dynamic tyre rolling radius to be agreed between the applicant and the Technical Service.

(2)  The test mass and the dynamic tyre rolling radius to be agreed between the applicant and the Technical Service.


ANNEX 12

REQUIREMENTS FOR REPLACEMENT BRAKE DISCS/DRUMS FOR VEHICLES OF CATEGORY O

1.   TEST OVERVIEW

The tests required in paragraph 5.3 of this Regulation are detailed as follows according to the vehicle category:

Table A12/1A

Vehicles of categories O1, O2 and O3

Track test

Alternative dynamometer test (Alternative to track test)

2.2.1.

Type 0

3.4.1.

Type 0

2.2.2.

Type I

3.4.2.

Type I

2.3.

Parking brake system (if applicable)

2.4.

Testing the dynamic frictional properties (comparison test conducted on the individual axles)

3.5.

Testing the dynamic frictional properties (comparison test conducted on the individual axles)


Table A12/1B

Vehicles of categories O4

Track test

Alternative dynamometer test (Alternative to track test)

2.2.1.

Type 0

3.4.1.

Type 0

2.2.3.

Type III

3.4.3.

Type III

2.3.

Parking brake system (if applicable)

2.4.

Testing the dynamic frictional properties (comparison test conducted on the individual axles)

3.5.

Testing the dynamic frictional properties (comparison test conducted on the individual axles)

2.   VERIFICATION OF THE VEHICLE TEST REQUIREMENTS

2.1.   Test vehicle

A vehicle that is representative for the selected test group (see definition in paragraph 5.3.6 of this Regulation) in respect of which an approval or parts report for a replacement brake disc/drum is applied for shall be fitted with this replacement brake disc/drum as well as be equipped with test devices for testing the brakes pursuant to the provisions of Regulation No 13.

The replacement brake disc/drum shall be fitted to the axle in question together with an accompanying brake lining which has been type approved according to Regulation No 13 or 90 available from the vehicle or axle manufacturer. Unless a uniform procedure is laid down for how braking is to be effected, the test shall be carried out following agreement with the Technical Service. All the tests listed below shall be carried out on brakes that have been bedded in. The same ‘bedding-in’ programme shall be used for both replacement and original brake discs and drums.

2.2.   Service braking system

2.2.1.   Type 0 brake tests, vehicle laden

This test shall be carried out pursuant to Regulation No 13, Annex 4, paragraph 1.4.4.

2.2.2.   Type I brake tests

This test shall be carried out pursuant to Regulation No 13, Annex 4, paragraph 1.5.2.

At the end of the Type I brake test, the performance when the brakes are hot is to be satisfied pursuant to Regulation No 13, Annex 4, paragraph 1.5.3.

2.2.3.   Type III brake tests

This test shall be carried out pursuant to Regulation No 13, Annex 4, paragraph 1.7.

2.3.   Parking braking system (if applicable)

2.3.1.   If the service brake system and the parking brake system use a common disc or drum friction surface, it is not necessary to conduct a specific parking brake system test. The satisfactory achievement of the Type 0 laden test shall be taken as meeting the parking brake system requirements.

2.3.2.   Static test with 18 per cent gradient, vehicle laden

2.3.3.   The vehicle shall satisfy all the relevant provisions laid down in Regulation No 13, Annex 4, paragraphs 2.3 and 3.2 that apply to this category of vehicle.

2.4.   Testing the dynamic frictional properties (comparison test conducted on the individual axles)

For this test, the vehicle shall be laden and all brake applications carried out on a flat road.

The service braking system of the vehicle shall be provided with a device that separates the front-wheel brakes from the rear-wheel brakes so that they can always be operated independently of one another.

If an approval or a parts report is required in connection with a replacement brake disc/drum for the front-wheel brakes, the rear-wheel brakes shall remain inoperative throughout the test.

If an approval or a parts report is required in connection with a replacement brake disc/drum for the rear-wheel brakes, the front-wheel brakes shall remain inoperative throughout the test.

2.4.1.   Performance comparison test when the brakes are cold

With cold brakes, the performance of the replacement brake disc/drum shall be compared with the original equivalents by comparing the results of the test below.

2.4.1.1.   Using the replacement brake disc/drum, at least six consecutive brake applications with different, gradually increasing control forces or brake pressures are carried out as part of the process up to the point at which the wheels lock, or up to a mean fully developed deceleration of 3,5 m/s2, or up to the maximum control force permitted for this category of vehicle, in which connection the initial speed for testing purposes is 45 km/h:

Prior to each brake application, the initial temperature of the brake drum shall be ≤ 100 °C.

2.4.1.2.   The brake test described in paragraph 2.4.1.1 also has to be carried out using the original brake disc/drum.

2.4.1.3.   The dynamic frictional properties of the replacement brake disc/drum can be regarded as similar to those of the original brake disc/drum, provided the values attained in relation to the mean fully developed deceleration at the same operating pressures or control forces in the region of the upper 2/3 of the curve generated do not deviate by more than ± 10 per cent or ± 0,4 m/s2 from those of the original brake disc/drum.

3.   INERTIA DYNAMOMETER TEST

3.1.   Equipment of the dynamometer

For testing purposes, the dynamometer shall be fitted out with the original brake caliper or wheel brake of the vehicle concerned. The inertia dynamometer shall be equipped with a constant torque device and equipment for recording rotational speed, brake pressure, the number of revolutions after braking has commenced, brake torque, the braking period and the temperature of the brake drum on a continuous basis.

3.2.   Test conditions

3.2.1.   Inertia mass of the inertia dynamometer

The inertia mass of the inertia dynamometer shall be set as close as possible, with a permissible variation of ± 5 per cent, to the theoretically required value which corresponds to that part of the total inertia of the vehicle braked by the appropriate wheel. The formula used for calculation purposes is as follows:

I = m · rdyn 2

Where:

I

=

rotary inertia (kgm2);

rdyn

=

dynamic rolling radius of the tyre (m);

m

=

test mass (part of the maximum mass of the vehicle braked by the appropriate wheel) as stipulated by this Regulation.

3.2.1.1.   Dynamic rolling radius

In calculating the inertia mass, the dynamic rolling radius (rdyn) of the largest tyre authorised for the vehicle (or the axle) shall be taken into account.

3.2.1.2.   Test mass

The test mass for calculating the inertia mass shall be as follows:

m = 0,55 maxle

maxle: maximum technically permitted mass of the axle

3.2.2.   The initial rotational speed of the dynamometer shall correspond to the linear speed of the vehicle at 40 or 60 km/h (depending on the type of test) based on the mean of the dynamic rolling radii of the largest and smallest tyre of the authorised tyre sizes.

3.2.3.   Cooling

The cooling may be carried out either to paragraphs 3.2.3.1 or 3.2.3.2.

3.2.3.1.   Test carried out with a complete wheel according to Regulation No 13, Annex 11, Appendix 2, paragraph 3.2.2.

With respect to the Type I and Type III tests air cooling at a velocity and air flow direction simulating actual conditions may be used during the heating runs, the speed of the air flow being vAir = 0,33 v

Where:

v

=

vehicle test speed at initiation of braking.

In other cases cooling air is not restricted.

The temperature of the cooling air shall be the ambient temperature.

3.2.3.2.   Test carried out without a rim

With respect to the Type I and Type III tests during the heating runs no cooling is allowed.

In other cases cooling air is not restricted.

3.2.4.   Preparation of the brake

3.2.4.1.   Disc brakes

This test is conducted using a new disc with new brake lining assemblies which have been type approved according to Regulation No 13 or 90 (in the condition as mounted on the vehicle, e.g. protective grease removed).

3.2.4.2.   Drum brakes

The test is conducted using a new drum with new linings assemblies which have been type approved according to Regulation No 13 or 90 (if applicable, protective grease removed).

Machining of the linings to achieve good lining to drum contact is permissible.

3.3.   Alternative dynamometer performance test

Table A12/3.3

1.

Cold Bedding-in (cold burnishing):

100 (disc) or 200 (drum) brake applications

Ti = 150 °C (disc) or 100 °C (drum)

vi = 60 km/h

dm = 1 and 2 m/s2 alternating

2.

Dynamic friction properties, see paragraph 3.5.1 of this annex

3.

Hot Bedding-in (Hot burnishing):

Make 30 consecutive snub applications with v1 = 60 km/h and v2 = 30 km/h with a cycle time of 60 s starting at a brake temperature of ≤ 100 °C at the first application. The deceleration of the first application shall be constant 3 m/s2. From the second up to the last application the pressure shall be constant and equivalent to the average of the first application.

4.

Re-burnishing:

30 brake applications

Ti = 150 °C (disc) or 100 °C (drum)

vi = 60 km/h,

dm = 1 and 2 m/s2 alternating

5.

Brake test Type 0, see paragraph 3.4.1 of this annex

6.

Brake test Type I (in the case of O2/O3), see paragraph 3.4.2 of this annex

7.

Re-burnishing: (like item 4)

8.

Brake test Type 0, see paragraph 3.4.1 of this annex

9.

Brake test Type III (in the case of O4), see paragraph 3.4.3 of this annex

10.

Re-burnishing: (like item 4)

3.4.   Service braking system

3.4.1.   Brake test Type 0, vehicle laden

With a brake temperature ≤ 100 °C at the start of each application and from the initial rotational speed equivalent to 40 km/h before Type I or 60 km/h before Type III, perform three brake applications at the same brake actuating pressure such that a mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a mean brake torque based on the braking distance equivalent to the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) of at least 5 m/s2 is achieved.

The brake actuating pressure must not exceed 650 kPa.

The average of the three results shall be taken as the cold performance.

3.4.1.1.   Rolling resistance

The rolling resistance is taken to equate to a deceleration of 0,1 m/s2.

3.4.2.   Brake test Type-I (Downhill test)

3.4.2.1.   Heating procedure

The brake shall be heated from an initial temperature of ≤ 100 °C by dragging the brake at a constant rotational speed equivalent to 40 km/h at a constant braking torque corresponding to a deceleration, including rolling resistance (see paragraph 3.4.1.1 of this annex) of 0,7 m/s2 for a period of 153 sec.

3.4.2.1.4.   In the case of brakes equipped with automatic brake adjustment devices the adjustment of the brakes shall, prior to the Type I test above, be set according to the procedure as laid down in paragraph 3.4.3.1.2 of this annex.

3.4.2.2.   Hot performance

3.4.2.2.1.   Not later than 60 seconds after completion of the heating procedure the hot performance shall be measured at 40 km/h using the same brake actuation pressure that was used for the Type 0 test at 40km/h.

The mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a mean brake torque based on the braking distance equivalent to the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) must not be less than 60 per cent of the value achieved with the cold brake in the Type 0 test nor less than 3,6 m/s2.

3.4.2.3.   Free running test

In the case of brakes equipped with automatic brake adjustment devices, after completing the tests defined in paragraph 3.4.2.2 the brake shall be allowed to cool to a temperature representative of a cold brake (i.e. ≤ 100 °C) and it shall be verified that the brake is capable of free running by fulfilling one of the following conditions:

(a)

The disc or drum is running freely (i.e. may be rotated by hand);

(b)

When the disc or drum is rotated without any cooling at a rotational speed equivalent to a constant speed of v = 60 km/h with the brake released the asymptotic temperatures shall not exceed a drum/disc temperature increase of 80 °C.

3.4.3.   Type-III test (fade test for vehicles of category O4)

3.4.3.1.   Heating procedure

3.4.3.1.1.   Make consecutive snub applications of the brake in accordance with the conditions laid down in the table. The first brake application should commence at a brake temperature of ≤ 100 °C and be conducted in such a way that a constant deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a constant brake torque equivalent to the deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) of 3 m/s2 will be achieved. The mean value of brake actuating pressure used for the first brake application should be maintained for all succeeding brake applications for the remainder of the test.

Category of vehicles

Conditions

v1 [km/h]

v2 [km/h]

Δt [sec]

n

O4

60

1/2 v1

60

20

where:

v1

=

initial speed, at beginning of braking

v2

=

speed at end of braking

n

=

number of brake applications

Δt

=

duration of a braking cycle: time elapsing between the initiation of one brake application and the initiation of the next

3.4.3.1.2.   In the case of brakes equipped with automatic brake adjustment devices the adjustment of the brakes shall, prior to the Type III test above, be set according to the following procedures as appropriate:

3.4.3.1.2.1.

In the case of air-operated brakes the adjustment of the brakes shall be such as to enable the automatic brake adjustment device to function. For this purpose the actuator stroke shall be adjusted to s0 ≥ 1,1 × sre-adjust (the upper limit shall not exceed a value recommended by the manufacturer):

where:

sre-adjust

is the readjustment stroke according to the specification of the manufacturer of the automatic brake adjustment device, i.e. the stroke, where it starts to re-adjust the running clearance of the brake with an actuator pressure of 100 kPa

Where, by agreement with the Technical Service, it is impractical to measure the actuator stroke, the initial setting shall be agreed with the Technical Service.

From the above condition, the brake shall be operated with an actuator pressure of 200 kPa, 50 times in succession. This shall be followed by a single brake application with an actuator pressure of ≥ 650 kPa.

3.4.3.1.2.2.

In the case of hydraulically operated disc brakes, no setting requirements are deemed necessary.

3.4.3.1.2.3.

In the case of hydraulically operated drum brakes, the adjustment of the brakes shall be as specified by the manufacturer.

3.4.3.2.   Hot performance

Not later than 60 seconds after completion of the heating procedure, the hot performance shall be measured at a rotational speed equivalent to 60 km/h using the same brake actuation pressure that was used for the Type 0 test at 60 km/h.

The mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) or a mean brake torque based on the braking distance equivalent to the mean fully developed deceleration, including the rolling resistance (see paragraph 3.4.1.1 of this annex) must not be less than 60 per cent of the value achieved with the cold brake in the Type 0 test nor less than 4,0 m/s2.

3.4.3.3.   Free running test

See paragraph 3.4.2.3.

3.5.   Testing the dynamic frictional properties (comparison test conducted on the individual wheel brake)

3.5.1.   The test shall be carried out in accordance of Regulation No 13, Annex 19, paragraphs 4.4.3.1 to 4.4.3.4.

3.5.2.   The brake test described in paragraph 3.5.1 also shall be carried out using the original brake disc/drum.

3.5.3.   The dynamic frictional properties at step 2 of the procedure of the replacement brake disc/drum can be regarded as similar to those of the original brake disc/drum, provided the values attained in relation to the mean fully developed deceleration at the same operating pressures or control forces in the region of the upper 2/3 of the curve generated do not deviate by more than ± 8 per cent or ± 0,4 m/s2 from those of the original brake disc/drum.

4.   INTEGRITY TESTS USING AN INERTIA DYNAMOMETER

The tests are conducted in accordance with paragraph 4.1 (discs) or 4.2 (drums).

A single test per test group is required unless the replacement part does not achieve the required number of cycles before damage or failure (see paragraph 4.1.1.1.3 or 4.1.1.2.3 of this annex).

The brake should be installed on the dynamometer in accordance with its fitting position on the vehicle (rigidly mounted brakes or those installed by means of a stub axle are exempt).

The temperature of the brake disc/brake drum should be measured in as close proximity to the friction rubbing surface as possible. The temperature measurement should be recorded and the method and measuring point shall be the same for all tests.

If cooling air is used during a brake application or between brake applications inside one braking cycle, the speed of the airflow at the brake shall be limited to:

vair = 0,33 v

Where:

v

=

vehicle test speed at initiation of braking.

In other cases cooling air is not restricted.

The temperature of the cooling air shall be the ambient temperature.

4.1.   Brake discs

4.1.1.   Brake disc thermal fatigue test

This test is conducted using a new disc with new brake lining assemblies which have been type approved according to Regulation No 13 or 90 (in the condition as mounted on the vehicle, e.g. protective grease removed).

4.1.1.1.   Vehicles of categories O1 and O2

4.1.1.1.1.   Test conditions (brake disc thermal fatigue)

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 12.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

4.1.1.1.2.   Test program (brake disc thermal fatigue test)

Table A12/4.1.1.1.2

Test provision

Thermal fatigue test

Vehicle categories

O1/O2

‘Bedding in’ procedure

100 brake applications

Initial speed: 60 km/h

Final speed: 30 km/h

dm alternating between 1 m/s2 and 2 m/s2

Initial temperature: ≤ 300 °C (beginning at room temperature)

Type of braking

Sequential brake applications

Braking interval (= ttotal)

70 s

Number of brake applications per cycle

2

Brake torque set to produce a deceleration of

5,0 m/s2

Total number of braking cycles

100 or 150 (see paragraph 4.1.1.1.3)

Brake applications

 

from

80 km/h

to

20 km/h

Initial temperature of the 1st brake application in each cycle

≤ 100 °C

where:

vmax

=

maximum design speed (as per its range of use)

tbra

=

actual braking period during the application

tacc

=

minimum acceleration time in accordance with the accelerating power of the respective vehicle

trest

=

rest period

ttotal

=

Braking interval (tbra + tacc + trest)

4.1.1.1.3.   Test result (brake disc thermal fatigue test)

The test is regarded as having been passed if 150 or more cycles are completed without damage or failure.

If less than 150 cycles but more than 100 cycles are completed without damage or failure then the test must be repeated on a new replacement part. Under these circumstances both tests must complete more than 100 cycles without damage or failure for the part to have passed the test.

If less than 100 cycles are completed before damage or failure then a test should be conducted on the original part and the results compared. If the damage or failure point is no worse than the number of cycles of the original part -10 per cent then the test is regarded as having been passed.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.1.1.2.   Vehicles of categories O3 and O4

4.1.1.2.1.   Test conditions (brake disc thermal fatigue test)

4.1.1.2.1.1.   Vehicles with a maximum permissible mass > 7,5 t

By means of the following test program, brake discs are tested as components of the braking system. It does not imitate actual driving conditions but is understood as being purely a component test. The parameters listed below in Table A12/4.1.1.2.1.1 cover the brakes that are presently used as a rule on vehicles with a maximum permitted mass > 7,5 t.

Table A12/4.1.1.2.1.1

Outside disc diameter

Test parameter

Test parameter

Example of equipment

Test mass m [kg]

rdyn [m]

‘Brake size’/smallest possible rim size

320-350

3 100

0,386

17,5″

351-390

4 500

0,445

19,5″

391-440

5 300

0,527

22,5″

> 440 (1)

 (1)

 (1)

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraph 3.2.1 of Annex 12 in conjunction with the parameters specified in the table above (test mass and rdyn).

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the dynamic tyre rolling radii specified in Table A12/4.1.1.2.1.1.

4.1.1.2.1.2.   Vehicles with a maximum permissible mass > 3,5 t and ≤ 7,5 t

As regards vehicles with a maximum permitted mass > 3,5 t and ≤ 7,5 t in respect of which the parameters listed in Table A12/4.1.1.2.1.1 do not apply, the test parameters shall be selected in such a way that the worst case scenario that formed the basis of the range of use of the replacement brake disc (maximum permitted vehicle mass, maximum tyre equipment size) is covered.

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 12.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorised for that vehicle.

4.1.1.2.2.   Test program (brake disc thermal fatigue test)

Table A12/4.1.1.2.2

‘Bedding-in’ procedure

100 Brake applications

Initial speed: 60 km/h

Final speed: 30 km/h

dm alternating between 1 m/s2 und 2 m/s2

Initial temperature: ≤ 300 °C (beginning at room temperature)

1.

Conditioned braking

10 Brake applications from 60 to 30 km/h

dm alternating between 1 m/s2 und 2 m/s2

Initial temperature: ≤ 250 °C

2.

High-speed braking

2 Brake applications from 130 to 80 km/h

dm = 3 m/s2

Initial temperature: ≤ 100 °C

3.

Conditioned braking

See test stage 1

4.

High-speed braking

See test stage 2

5.

Conditioned braking

See test stage 1

6.

Continuous braking (1)

5 Brake applications

at a constant speed of: 85 km/h

Decelerating torque corresponding to 0,5 m/s2

Braking period 60 s

Initial temperature: ≤ 80 °C

7.

Conditioned braking

see test stage 1

8.

Continuous braking (2)

5 Brake applications

at a constant speed of: 85 km/h

Decelerating torque corresponding to 1,0 m/s2

Braking period 40 s

Initial temperature: ≤ 80 °C

9.

Repeat test stages 1 to 8:

9 or 14 times (whichever is applicable) — see paragraph 4.1.1.2.3

dm

distance-related mean deceleration.

4.1.1.2.3.   Test result (brake disc thermal fatigue test)

The test is regarded as having been passed if 15 or more cycles are completed without damage or failure.

If less than 15 cycles but more than 10 cycles are completed without damage or failure then the test must be repeated on a new replacement part. Under these circumstances both tests must complete more than 10 cycles without damage or failure for the part to have passed the test.

If less than 10 cycles are completed before damage or failure then a test should be conducted on the original part and the results compared. If the damage or failure point is no worse than the number of cycles of the original part then the test is regarded as having been passed.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.1.2.   Brake disc high load test

In the case of interchangeable parts, the high load test shall be conducted on a new brake disc or on the same brake disc which has been used for the alternative dynamometer test (see paragraph 3.3 of this annex.).

In the case of equivalent parts, the high load test shall be conducted using a new disc, an original brake caliper of the vehicle(s) concerned and new brake lining assemblies of the vehicle(s) concerned which have been type approved according to Regulation No 13 or 90 (in the condition as mounted on the vehicle, e.g. protective grease removed).

Worn brake linings may be replaced during the test if necessary.

4.1.2.1.   Vehicles of categories O1 and O2

The new brake linings and the new disc shall be fitted to the relevant brakes and bedded (burnished) according to the procedure of Annex 3, paragraph 2.2.2.3. If any new brake linings are required in order to complete the test, they shall be bedded (burnished) according to the same procedure.

4.1.2.1.1.   Test conditions (brake disc high load test)

See paragraph 4.1.1.1.1 above.

4.1.2.1.2.   Test program (brake disc high load test)

The test has to be carried out according to the following table:

Table A12/4.1.2.1.2

Test provision

High load test

Vehicle categories

O1/O2

Type of braking

Single brake applications

Number of brake applications

70

Initial temperature at the beginning of braking

≤ 100 °C

Brake torque set to produce a deceleration of

10,0 m/s2 with a pressure ≤ 16 000 kPa or p = 16 000 kPa (< 10,0 m/s2)

Brake applications

 

from

80

to

10 km/h

4.1.2.1.3.   Test result (brake disc high load test)

The test is regarded as having been passed if 70 or more brake applications are completed without damage or failure.

If less than 70 brake applications are completed before damage or failure, then a test should be conducted on the original part and the results compared. If the damage or failure point is no worse than the number of cycles of the original part -10 per cent then the test is regarded as having been passed.

Damage in this context means:

(a)

Radial cracks on the friction surfaces which are longer than two thirds of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.1.2.2.   Vehicles of categories O3 and O4

4.1.2.2.1.   Test conditions (brake disc high load test)

See above paragraph 4.1.1.2.1.

4.1.2.2.2.   Test program (brake disc high load test)

Bedding in accordance with Table A12/4.1.1.2.2.

500 brake applications are carried out from a speed of 50 km/h to 10 km/h with a brake torque of 90 per cent of the maximum brake torque applicable to the relevant brake caliper.

Initial temperature: ≤ 200 °C

4.1.2.2.3.   Test result (brake disc high load test)

The test is regarded as having been passed if the brake disc does not exhibit any signs of fracture after 500 brake applications. The test shall be considered valid provided the required maximum torque is achieved for at least 90 per cent of the brake applications under the condition that for the other 10 per cent the maximum pressure is applied.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

Table A12/4.2.1.1.2

Test provision

Thermal fatigue test

‘Bedding in’ procedure

200 brake applications

Initial speed: 60 km/h

Final speed: 5 km/h

dm alternating between 1 m/s2 and 2 m/s2

Initial temperature: ≤ 200 °C (beginning at room temperature)

Alternatively bedding may be omitted if the applicant for approval does not consider it to be necessary

Type of braking

Sequential brake applications

Number of brake applications

250 or 300 (whichever is applicable) — see paragraph 4.2.1.1.3

NB: The test is interrupted when a through crack appears.

Brake torque set to produce a deceleration of

3,0 m/s2

Brake applications

 

from

130

to

80 km/h

Initial temperature of each brake application

≤ 50 °C

Cooling pursuant to paragraph 3.2.3

Permitted

4.2.   Brake drums

4.2.1.   Brake drum thermal fatigue test

The test is conducted using a new drum with new linings assemblies which have been type approved according to Regulation No 13, 13-H or 90 (if applicable, protective grease removed).

Machining of the linings to achieve good lining to drum contact is permissible.

4.2.1.1.   Vehicles of categories O1 and O2

4.2.1.1.1.   Test conditions (brake drum thermal fatigue test)

4.2.1.1.1.1.   Vehicles with a maximum permissible axle load ≤ 1 200 kg

Not applicable.

4.2.1.1.1.2.   Vehicles with a maximum permissible axle load > 1 200 kg

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 12.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

4.2.1.1.2.   Test program (brake drum thermal fatigue test)

Table A12/4.2.1.1.2

Test provision

Thermal fatigue test

Type of braking

Sequential brake applications

Number of brake applications

250 or 300 (whichever is applicable) — see 4.2.1.1.3.

NB: The test is interrupted when a through crack appears.

Brake torque set to produce a deceleration of

3,0 m/s2

Brake applications

 

from

130

to

80 km/h

Initial temperature of each brake application

≤ 50 °C

Cooling pursuant to 3.2.3

permitted

4.2.1.1.3.   Test result (brake drum thermal fatigue test)

The test is regarded as having been passed if 300 or more brake applications are completed without damage or failure.

If less than 300 brake applications but more than 250 brake applications are completed without damage or failure then the Technical Service must repeat the test on a new replacement part. Under these circumstances both tests must complete more than 250 brake applications without damage or failure for the part to have passed the test.

If less than 250 brake applications are completed before damage or failure then a test should be conducted on the original part and the results compared. If the damage or failure point is no worse than the original part then the test is regarded as having been passed.

Damage in this context means:

(a)

Cracks on the friction surface which are longer than two-thirds of the axial width of the friction surface;

(b)

Cracks on the friction surface which reach the axial outer end of the drum;

(c)

Through-cracking of the drum;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.2.1.2.   Vehicles of categories O3 and O4

4.2.1.2.1.   Test conditions (brake drum thermal fatigue test)

4.2.1.2.1.1.   Vehicles with a maximum permissible mass > 7,5 t

By means of the following test programme, brake drums are tested as components of the braking system. It does not imitate actual driving conditions but is understood as being purely a component test. The parameters listed below in Table A12/4.2.1.2.1.1 cover the brakes that are presently used as a rule on vehicles with a maximum permitted mass > 7,5 t.

Table A12/4.2.1.2.1.1

Inner drum diameter

[mm]

lining width

Typical rim diameter

< 130 mm

130-190 mm

> 190 mm

Test mass [kg]

Tyre radius

[m]

Test mass

[kg]

Tyre radius

[m]

Test mass [kg]

Tyre radius

[m]

< 330

2 750

0,402

3 200

0,390

5 500

0,402

17,5″

330-390

 (2)

 (2)

3 400

0,480

5 500

0,516

19,5″

391-430

3 400

0,510

4 500

0,527

5 500

0,543

22,5″

> 430

 (2)

 (2)

 (2)

 (2)

 (2)

 (2)

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraph 3.2.1 of Annex 12 in conjunction with the parameters specified in the table above (test mass and rdyn).

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the dynamic tyre rolling radii specified in Table A12/4.2.1.2.1.1.

4.2.1.2.1.2.   Vehicles with a maximum permissible mass > 3,5 t and ≤ 7,5 t

As regards vehicles with a maximum permitted mass > 3,5 t and ≤ 7,5 t in respect of which the parameters listed in Table A12/4.1.1.2.1.1 do not apply, the test parameters shall be selected in such a way that the worst case scenario that formed the basis of the range of use of the replacement brake drum (maximum permitted vehicle mass, maximum tyre equipment size) is covered.

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 12.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

4.2.1.2.2.   Test program (brake drum thermal fatigue test)

Table A12/4.2.1.2.2

Test provision

Thermal fatigue test

Type of braking

Sequential brake applications

Number of brake applications

250 or 300 (whichever is applicable) — see 4.2.1.2.3.

NB: The test is interrupted when a through crack appears.

Brake torque set to produce a deceleration of

3,0 m/s2

Brake applications

 

from

130

to

80 km/h

Initial temperature of each brake application

≤ 50 °C

Cooling pursuant to paragraph 3.2.3

permitted

4.2.1.2.3.   Test result (brake drum thermal fatigue test)

The test is regarded as having been passed if 300 or more brake applications are completed without damage or failure.

If less than 300 brake applications but more than 250 brake applications are completed without damage or failure then the Technical Service must repeat the test on a new replacement part. Under these circumstances both tests must complete more than 250 brake applications without damage or failure for the part to have passed the test.

If less than 250 brake applications are completed before damage or failure then a test should be conducted on the original part and the results compared — if the damage or failure point is no worse than the original part then the test is regarded as having been passed.

Damage in this context means:

(a)

Cracks on the friction surface which are longer than 2/3 of the axial width of the friction surface;

(b)

Cracks on the friction surface which reach the axial outer end of the drum;

(c)

Through-cracking of the drum;

(d)

Any type of structural damage or cracks in any area outside the friction surface.

4.2.2.   Brake drum high load test

In the case of interchangeable parts, the high load test shall be conducted on a new brake drum or on the same brake drum which has been used for the alternative dynamometer test (see paragraph 3.3 of this annex.). In either case, the brake lining assemblies used for the test should be approved according to Regulation No 13 or 90 and bedded to the drum in accordance with the procedure specified in paragraph 4.2.2.2.2 of this annex. Alternatively bedding may be omitted if the applicant for approval does not consider this to be necessary

In the case of equivalent parts, the high load test shall be conducted using a new drum, an original brake of the vehicle(s) concerned and new brake lining assemblies of the vehicle(s) concerned which have been type approved according to Regulation No 13 or 90 (in the condition as mounted on the vehicle, e.g. protective grease removed). Bedding should be in accordance with the procedure specified in paragraph 4.2.2.2.2 of this annex. Alternatively bedding may be omitted if the applicant for approval does not consider this to be necessary

Worn brake linings may be replaced during the test if necessary.

4.2.2.1.   Vehicles of categories O1 and O2

4.2.2.1.1.   Test conditions (brake drum high load test)

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 3.2.1, 3.2.1.1 and 3.2.1.2 of Annex 12.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

4.2.2.1.2.   Test program (brake drum high load test)

See paragraph 4.2.2.2.2 below.

4.2.2.1.3.   Test result (brake drum high load test)

See paragraph 4.2.2.2.3 below.

4.2.2.2.   Vehicles of categories O3 and O4

4.2.2.2.1.   Test conditions (brake drum high load test)

See paragraph 4.2.1.2.1 above.

4.2.2.2.2.   Test program (brake drum high load test)

Table A12/4.2.2.2.2

Test provision

High load test

‘Bedding in’ procedure

200 brake applications

Initial speed: 60 km/h

Final speed: 5 km/h

dm alternating between 1 m/s2 and 2 m/s2

Initial temperature: ≤ 200 °C (beginning at room temperature)

Alternatively bedding may be omitted if the applicant for approval does not consider it to be necessary

Type of braking

Braking to less than 5 km/h

Total number of brake applications

150

Initial brake drum temperature at each brake application

≤ 100 °C

Brake applications

 

from

60 km/h

to

0 km/h

Brake torque set to produce a deceleration of

6 m/s2

Cooling (also deviating from paragraph 3.2.3 of this annex)

Permitted

4.2.2.2.3.   Test result (brake drum high load test)

The test result is positive provided the brake drum does not fracture.

The test shall be considered valid provided the required maximum torque is achieved for at least 90 per cent of the brake applications under the condition that for the other 10 per cent the maximum pressure is applied.

Damage in this context means:

(a)

Radial cracks on the friction surface which are longer than 2/3 of the radial height of the friction surface;

(b)

Cracks on the friction surface which reach the inner or outer diameter of the friction surface;

(c)

Through-cracking of any friction ring;

(d)

Any type of structural damage or cracks in any area outside the friction surface.


(1)  The test mass and the dynamic tyre rolling radius to be agreed between the applicant and the Technical Service.

(2)  The test mass and the dynamic tyre rolling radius to be agreed between the applicant and the Technical Service.


ANNEX 13

MODEL TEST REPORT FOR A REPLACEMENT BRAKE DISC/DRUM

Test Report No … concerning the approval of a replacement brake disc/drum in accordance with Regulation No 90

1.   General technical description of a replacement brake disc/drum (1)

1.1.   Applicant (name and address): …

1.2.   Manufacturer (name and address): …

1.3.   Trade name: …

1.4.   Category of replacement disc/drum: Original/Identical/Equivalent/Interchangeable (1)

1.5.   Type of disc/drum (1): …

1.6.   Marking:

 

Identification

Location of marking

Method of marking

Manufacturer name or trade name:

 

 

 

Approval number

E2-90R02 Cxxxx/yyyy

 

 

xxxx => Type No

yyyy => Variant No

 

 

Part number

 

 

 

Indication for traceability

 

 

 

Minimum thickness (disc)/maximum inside diameter (drum) (1)

 

 

 

1.7.   Material

1.7.1.   Material group: …

1.7.2.   Material subgroup (2): …

1.8.   Application range

With minimum of the following information:

Part

Replacement part

Original part

Variant

part number

part number

identification code

 

 

 

 


Motor-vehicle (2)

Make

Type of vehicle

Trade name

Maximum Gross weight

Maximum speed

Year of manufacture

 

 

 

 

 

 


Axle for trailers (2)

Make

Type of axle

Trade name

Maximum axle load

Range of dynamic tyre radius

(largest/smallest)

 

 

 

 

 

 

 


Brake

Position

Caliper (2)

Dimensions

Type of construction

Front

Rear

 

 

 

 

 

1.9.   Additional information (2)

2.   Test Groups

2.1.   Dimensions per test group

2.1.1.   Outside (disc)/Inside (drum) (1) diameters: …

2.1.2.   Thickness (disc)/Shoe width (drum) (1): …

2.2.   Highest ratio of kinetic energy per test group in according to paragraph 5.3.6 of Regulation No 90

Formula

2.3.   Disc/drum (1) material per test group: …

3.   Technical data regarding the tests per test group

3.1.   Vehicle test

3.1.1.   Data of the test vehicle

3.1.1.1.   Vehicle category: …

3.1.1.2.   Vehicle manufacturer: …

3.1.1.3.   Vehicle make: …

3.1.1.4.   Vehicle type and trade name: …

3.1.1.5.   Vehicle identification number: …

3.1.1.6.   Vehicle type approval No: …

3.1.1.7.   Vehicle engine power: …

3.1.1.8.   Speed:

Maximum vehicle speed vmax: …

3.1.1.9.   Tyres: …

3.1.1.10.   Brake circuit configuration/Layout: …

3.1.1.11.   Test masses

Axle 1: …

Axle 2: …

Axle …: …

3.1.1.12.   Brake:

3.1.1.12.1.

Test sample brake disc/Brake drum (1):

Identification code of the original replacement part: …

Test group: …

Part number: …

Mass of the replacement part: …

Outside disc diameter/Inside drum diameter (1): …

Radius re, effective: …

Friction surface width: …

Disc thickness (nominal)/Outside drum width (1): …

3.1.1.12.2.

Brake caliper/brake drum mechanism (1)

Manufacturer: …

Type: …

Variant: …

Part number: …

Method of construction: …

piston/wheel cylinder diameter (2): …

Maximum technically permissible torque Cmax,e at the brake lever (pneumatic)/line pressure (pmax,e) (hydraulic) (1): …

Threshold torque C0,e (pneumatic)/line pressure (hydraulic) (1): …

Ratio le/ee (pneumatic)/piston diameter (hydraulic) (1): …/…

Maximum brake torque: …

3.1.1.12.3.

Brake pad/Brake lining (1)

Manufacturer: …

Make: …

Type: …

Approval number (2): …

Identification (e.g. part number): …

Effective surface area: …

3.1.2.   Test equipment

3.1.2.1.   Deceleration: …

3.1.2.2.   Pressure: …

3.1.2.3.   Speed: …

3.1.2.4.   Drum/Disc temperature: …

3.1.3.   Test track:

3.1.3.1.   Location: …

3.1.3.2.   Surface: …

3.1.3.3.   Condition (e.g. dry/wet): …

3.2.   Dynamometer test

3.2.1.   Test data

3.2.1.1.   Vehicle category: …

3.2.1.2.   Dynamic rolling radius

Dynamic rolling radius RIner for calculating the inertia:

with respect to paragraph 3.2.1 of Annex 11/12 …

Dynamic rolling radius Rveh with respect to paragraph 3.2.2 of Annex 11/12: …

3.2.1.3.   Masses and inertia

Maximum permissible mass of the vehicle: …

X-Value (front axle): …

Y-Value (rear axle): …

Test mass m: …

Test inertia IAdj: …

3.2.1.4.   Cooling …

3.2.1.4.1.   Speed of cooling air during Type I, Type II and/or Type III (1) …

3.2.1.4.2.   Speed of cooling air in other cases:

3.2.1.5.   Speed

Maximum speed vmax: …

3.2.1.6.   Actuation device

Manufacturer: …

Make: …

Type: …

Variant: …

Effective area (hydraulic)/ThA — formula (pneumatic) (1): …

3.2.1.7.   Brake

3.2.1.7.1.   Test sample brake disc/Brake drum (1)

Identification code of the original replacement part: …

Test group: …

Part number: …

Mass of the replacement part: …

Outside disc diameter/Inside drum diameter (1): …

Radius re, effective: …

Friction surface width: …

Disc thickness (nominal)/Outside drum width (1): …

3.2.1.7.2.   Brake caliper/Brake drum mechanism (1)

Manufacturer: …

Type: …

Variant: …

Method of construction: …

Maximum technical permissible torque Cmax,e at the brake lever (pneumatic)/Line pressure (pmax,e) (hydraulic) (1): …

Threshold torque C0,e (pneumatic)/Line pressure (hydraulic) (1): …

Ratio le/ee (pneumatic)/Piston diameter (hydraulic) (1) …/…

Maximum Brake torque: …

Identification-No: …

3.2.1.7.3.   Brake pad/Brake Lining (1)

Manufacturer: …

Make: …

Type: …

Approval number (2): …

Identification: …

Width be: …

Thickness de: …

Surface, effective: …

Method of attachment: …

3.2.2.   Test bench data: …

3.2.2.1.   Location:

4.   Record of Test results

4.1.   Geometric check: …

Drawing No and issue level: …

4.2.   Material check: …

4.3.   Balancing provisions check: …

4.4.   Wear condition marking check: …

4.5.   Vehicle test/Alternative dynamometer test (1):

4.5.1.   Brake performance

4.5.1.1.   Service brake performance in the case of categories M1, M2,M3, N1 and N2 with hydraulic braking systems (2)

4.5.1.1.1.   Vehicle test results:

Test Type:

0

disconnected

0

connected

I

Parking brake (2)

Annex 11, paragraph:

2.2.1

2.2.2

2.2.3

2.3

Load condition:

 

laden

unladen

laden

laden

laden

Test speed

 

 

 

 

 

 

Initial:

km/h

 

 

 

 

 

Final:

km/h

0

0

 

 

 

Pressure:

kPa

 

 

 

 

 

Deceleration:

m/s2

 

 

 

 

 

Number of applications:

 

 

 

Duration of one brake cycle:

s

 

 

 

Free running test passed: yes/no (1)

4.5.1.1.2.   Inertia dynamometer test results:

Test Type:

0

disconnected

0

Simulation connected

I

simulation

Annex 11, paragraph:

3.4.1

3.4.4

3.4.2

Load condition

 

 

 

 

Test speed

 

 

 

 

Initial:

km/h

 

 

 

Final:

km/h

0

0

 

Pressure:

kPa

 

 

 

Deceleration:

m/s2

 

 

 

Number of applications:

 

 

Duration of one brake cycle:

s

 

 

Free running test passed: yes/no (1)

4.5.1.2.   Service brake performance in the case of categories M2, M3, N2, N3 with pneumatic braking systems (2)

4.5.1.2.1.   Vehicle test results:

Test Type:

0

disconnected

0

connected

I

Parking brake (2)

Annex 11, paragraph:

2.2.1

2.2.3

2.2.4

2.3

Load condition:

 

Laden

unladen

laden

laden

laden

Test speed

 

 

 

 

 

 

Initial:

km/h

 

 

 

 

 

Final:

km/h

0

0

0

 

 

Brake chamber pressure pe:

kPa

 

 

 

 

 

Deceleration:

m/s2

 

 

 

 

 

Number of applications:

 

 

 

 

 

Duration of one brake cycle:

s

 

 

 

 

 

Brake force 0,5 · Te:

daN

 

 

 

 

 

Braking ratio 0,5 · Te/9,81 · m

(m:= Test mass)

 

 

 

 

 

Brake chamber stroke se:

Mm

 

 

 

 

 

Threshold torque at the brake lever

 

 

 

 

 

 

Ce:

Nm

 

 

 

 

 

C0,e:

Nm

 

 

 

 

 

Free running test passed: yes/no (1)

4.5.1.2.2.   Inertia dynamometer test results:

Test Type:

0

I

II

Annex 11, paragraph:

3.4.1

3.4.2

3.4.3

Test speed

 

 

 

 

Initial:

km/h

 

 

 

Final:

km/h

 

 

 

Brake chamber pressure pe:

kPa

 

 

 

Deceleration:

m/s2

 

 

 

Number of applications:

 

 

 

Duration of one brake cycle:

s

 

 

 

Brake force 0,5 · Te:

daN

 

 

 

Braking ratio 0,5 · Te/9,81 · m

(m:= Test mass)

 

 

 

Brake chamber stroke se:

mm

 

 

 

Threshold torque at the brake lever

 

 

 

 

Ce:

Nm

 

 

 

C0,e:

Nm

 

 

 

Free running test passed: yes/no (1)

4.5.1.3.   Service brake performance in the case of categories O1, O2 and O3 with pneumatic braking system

4.5.1.3.1.   Vehicle test results:

Test Type:

0

I

Parking brake (2)

Annex 12, paragraph:

2.2.1

2.2.2

2.3

Load condition:

 

laden

laden

laden

Test speed

 

 

 

 

Initial:

km/h

 

 

 

Final:

km/h

 

 

 

Brake chamber pressure pe:

kPa

 

 

 

Deceleration:

m/s2

 

 

 

Number of applications:

 

 

 

Duration of one brake cycle:

s

 

 

 

Brake force 0,5 · Te:

daN

 

 

 

Braking ratio 0,5 · Te/9,81 · m

(m:= Test mass):

 

 

 

Brake chamber stroke se:

mm

 

 

 

Threshold torque at the brake lever

 

 

 

 

Ce:

Nm

 

 

 

C0,e:

Nm

 

 

 

Free running test passed: yes/no (1)

4.5.1.3.2.   Inertia dynamometer test results:

Test Type:

0

I

Annex 12, paragraph:

3.4.1

3.4.2

Test speed

 

 

 

Initial:

km/h

 

 

Final:

km/h

 

 

Brake chamber pressure pe:

kPa

 

 

Deceleration:

m/s2

 

 

Number of applications:

 

 

Duration of one brake cycle:

s

 

 

Brake force 0,5 · Te:

daN

 

 

Braking ratio 0,5 · Te/9,81 · m

(m:= Test mass):

 

 

Brake chamber stroke se:

mm

 

 

Threshold torque at the brake lever

 

 

 

Ce:

Nm

 

 

C0,e:

Nm

 

 

Free running test passed: yes/no (1)

4.5.1.4.   Service brake performance in the case of categories O4 (2)

Test Type:

0

III

No Sample

 

 

 

Annex 12, paragraph:

2.2.1/3.4.1 (1)

2.2.3/3.4.3 (1)

Test speed

 

 

 

 

Initial:

km/h

 

 

 

Final:

km/h

 

 

 

Brake chamber pressure pe:

kPa

 

 

 

Number of applications:

 

 

 

Duration of one brake cycle:

s

 

 

 

Brake force 0,5 · Te:

daN

 

 

 

Braking ratio 0,5 · Te/9,81 · m

(m:= Test mass):

 

 

 

Brake chamber stroke se:

mm

 

 

 

Threshold torque at the brake lever

 

 

 

 

Ce:

Nm

 

 

 

C0,e:

Nm

 

 

 

Free running test passed: yes/no (1)

4.5.1.5.   Dynamic friction properties

Diagram: deceleration vs pressure

4.6.   Integrity tests:

4.6.1.   Thermal fatigue test:

Sample No

Cycles without damage in accordance with

Annex 11: paragraphs 4.1.1.1.3/4.1.1.2.3/4.2.1.2.3

Annex 12: paragraphs 4.1.1.1.3/4.1.1.2.3/4.2.1.1.3/4.2.1.2.3 (1)

 

 

 

 

4.6.2.   High load test:

Sample No.

Cycles without damage in accordance with

Annex 11: paragraphs 4.1.2.1.3/4.1.2.2.3/4.2.2.1.3/4.2.2.2.3

Annex 12: paragraphs 4.1.2.1.3/4.1.2.2.3/4.2.2.1.3/4.2.2.2.3 (1)

5.   Test Documents

6.   Appendices

Appendix …

7.   Date(s) of test: …

7.1.   Date(s) of vehicle test (2): …

7.2.   Date(s) of Inertia dynamometer test:

8.   This test has been carried out and the results reported in accordance with Regulation No 90 as last amended by the 03 series of amendments.

Technical Service conducting the test

Signed: …

Date: …


(1)  Strike out what does not apply.

(2)  If applicable.


ANNEX 14

REQUIREMENTS FOR REPLACEMENT BRAKE DISCS FOR VEHICLES OF CATEGORIES L1, L2, L3, L4 AND L5

1.   TEST OVERVIEW

The tests required in paragraph 5.3 of this Regulation are detailed as follows according to the vehicle category.

Table A14/1

 

Static bench test

Vehicle test

Alternative dynamometer test

Resistance to static torque test

2

Performance tests according to Regulation No 78

3.2.3.

Dry stop test

4.4.1.

Dry stop test

3.2.4.

Wet brake test

3.2.5.

Heat fade test

4.4.2.

Heat fade test

Comparison test with original part

3.2.6.

Testing the dynamic frictional properties

4.4.3.

Testing the dynamic frictional properties

Integrity test

No vehicle test – use dynamometer test

5.1.

Brake disc thermal fatigue test

For each disc type, at least one test group (see definition in paragraph 5.3.6 of this Regulation) requires the ‘Dry stop’, ‘Wet brake’ and ‘Heat fade’ tests to be carried out on a vehicle.

2.   STATIC BENCH TEST REQUIREMENTS

2.1.   Purpose

To verify the resistance of the bell and, in case of floating discs, of the connection system to the braking ring when the disc is subjected to a braking torque.

2.2.   Test procedure and conditions

Static test performed on special test bench shown in Figure 1.

Figure 1

Image

Fixed with a pin

Pin

Pin

Disc

Disc

Disk

Jig

Jig

2.2.1.   Drill a hole on the braking surface of the disc at a distance from the centre equal to the effective radius Rd.

2.2.2.   Position the disc on the test bench and fasten it using specific fastening screws.

2.2.3.   Connect the bench arm to the hole drilled on the brake disc.

2.2.4.   Apply the force F, specified in Table A14/2.2.5, as shown in Figure 1.

2.2.5.   Record strokes and forces as shown in Figure 2.

Table A14/2.2.5

Disc Diameter

[mm]

Disc Thickness

[mm]

Tangential force F

[kN] min

≥ 150 < 200

≤ 4

≥ 8

> 4

≥ 10

≥ 200 < 250

≤ 3

≥ 8

> 3 ≤ 4

≥ 10

> 4

≥ 12

≥ 250 < 300

≤ 3

≥ 8

> 3 ≤ 4

≥ 10

> 4

≥ 12

≥ 300 < 350

≤ 4

≥ 8

> 4 ≤ 5

≥ 11

> 5

≥ 14

2.2.6.   NB: The test shall be conducted in 2 positions:

2.2.6.1.   Floating and composite fixed disc

With hole on braking surface, coincident with a connection bush.

With hole on braking surface, coincident with the centre line between 2 connection bushes.

2.2.6.2.   One-piece disc

With hole on braking surface, coincident with a fixing hole.

With hole on braking surface, coincident with the centre line between 2 fixing holes.

Figure 2

Movement

Image

Load

Where:

(a)

Adjustment stroke of the equipment (recovery of any clearance between the hole on the braking surface and the connection pin to the bench arm);

(b)

Load developed by the fastening screws to the equipment;

(c)

Movement of the brake disc caused by its rotation with sliding on the plate of the equipment, when the disc's fastening screws bear against the fixing holes of the disc;

(d)

Load supported by the brake disc;

(e)

Permanent deformation of the brake disc (starting from point (A).

2.3.   Test results

The disc shall not permanent deformations before reaching the force F specified in Table A14/2.2.5 the measurement of the deformation force must be performed at point A as in Figure 2.

3.   VERIFICATION OF THE VEHICLE TEST REQUIREMENTS

3.1.   Test vehicle

A vehicle that is representative for the selected test group (see definition in paragraph 5.3.6 of this Regulation) in respect of which an approval or parts report for a replacement brake disc is applied for shall be fitted with this replacement brake disc as well as be equipped with test devices for testing the brakes pursuant to the provisions of Regulation No 78.

The replacement brake disc shall be fitted to the wheel in question together with an accompanying brake lining which has been type approved according to Regulation No 78 or 90, available from the vehicle manufacturer.

Unless a uniform procedure is laid down for how braking is to effected, the test shall be carried out following agreement with the Technical Service. All the tests listed below shall be carried out on brakes that have been bedded in.

The same ‘bedding-in’ programme shall be used for both replacement and original brake discs.

3.2.   Service braking system

3.2.1.   Brake temperature measurement

This procedure shall be carried out pursuant to Regulation No 78, Annex 3, paragraph 2.4.

3.2.2.   Burnishing procedure

This procedure shall be carried out pursuant to Regulation No 78, Annex 3, paragraph 2.5.

3.2.3.   Dry stop test

This test shall be carried out pursuant to Regulation No 78, Annex 3, paragraph 3.

3.2.4.   Wet brake test

This test shall be carried out pursuant to Regulation No 78, Annex 3, paragraph 6.

3.2.5.   Heat fade test

The test is applicable to vehicle categories L3, L4 and L5.

This test shall be carried out pursuant to Regulation No 78, Annex 3, paragraph 7.

3.2.6.   Testing the dynamic frictional properties (comparison test conducted on the individual wheel)

For this test, the vehicle shall be laden and all brake applications carried out on a flat road with the engine disconnected.

The service braking system of the vehicle shall be provided with a device that separates the front-wheel brake from the rear-wheel brake so that they can always be operated independently of one another.

If an approval or a part report is required in connection with a replacement brake disc for the front-wheel brake, the rear-wheel brakes shall remain inoperative throughout the test.

If an approval or a part report is required in connection with a replacement brake disc for the rear-wheel brake, the front-wheel brake shall remain inoperative throughout the test.

3.2.6.1.   Performance comparison test when the brakes are cold

With cold brakes, the performance of the replacement brake disc shall be compared with the original equivalent by comparing the results of the test below.

3.2.6.2.   Using the replacement brake disc, at least six consecutive brake applications with different, gradually increasing control forces or brake pressures are carried out as part of the process up to the point at which the wheel lock, or up to a mean fully developed deceleration of 6 m/s2 or up to the maximum control force or line pressure permitted for this category of vehicle, in which connection the initial speed for the testing of front or rear wheel brake disc is as per the table below:

Table A14/3.2.6.2

Vehicle category

Test speed in km/h

Front wheel

Rear wheel

L1, L2,

30

30

L3, L4, L5,

70

45

Prior to each brake application, the initial temperature of the brake disc shall be ≤ 80 °C.

3.2.6.3.   The brake test described in paragraph 3.2.6.2 also has to be carried out using the original brake disc.

3.2.6.4.   The dynamic frictional properties of the replacement brake disc can be regarded as similar to those of the original brake disc, provided the values attained in relation to the mean fully developed deceleration at the same operating pressures or control forces in the region of the upper 2/3 of the curve generated do not deviate by either ± 15 per cent or ± 0,4 m/s2 from those of the original brake disc (see an example of the curve in Figures 3 and 4).

Figure 3

Image Text of image

Figure 4

Image Text of image

4.   INERTIA DYNAMOMETER TEST

4.1.   Equipping the dynamometer

For testing purposes, the dynamometer shall be fitted out with the original brake caliper. The inertia dynamometer shall be equipped with a constant torque device and equipment for recording rotational speed, brake pressure, the number of revolutions after braking has commenced, brake torque, the braking period and the temperature of the brake discs on a continuous basis.

4.2.   Test conditions

4.2.1.   Inertia mass of the inertia dynamometer

The inertia mass of the inertia dynamometer shall be set as close as possible, with a permissible variation of ± 5 per cent, to the theoretically required value which corresponds to that part of the total inertia of the vehicle braked by the appropriate wheel. The formula used for calculation purposes is as follows:

I = m · rdyn 2

Where:

I

=

rotary inertia (kgm2);

rdyn

=

dynamic rolling radius of the tyre (m);

m

=

test mass (part of the maximum mass of the vehicle braked by the appropriate wheel) as stipulated by this Regulation.

4.2.1.1.   Dynamic rolling radius

In calculating the inertia mass, the dynamic rolling radius (rdyn) of the largest tyre authorised for the vehicle shall be taken into account.

4.2.1.2.   Test mass

The test mass for calculating the inertia mass shall be as follows:

(a)

When testing front wheel brake disc:

m = x · mveh

mveh

=

max. permitted mass of the vehicle

(b)

When testing rear wheel brake disc:

m = y · mveh

mveh

=

max. permitted mass of the vehicle

Table A14/4.2.1.2

Vehicle category

Percentage by mass m to be taken into account

X values (front wheel with 1 disc)

X values (front wheel with 2 discs)

Y values (rear axle)

L1, L2, L3, L4, L5

75

37,5

50

4.2.2.   The initial rotational speed of the dynamometer shall correspond to the linear speed of the vehicle at 80 km/h (L3, L4, L5) or 40 km/h (L1, L2) based on the mean of the dynamic rolling radii of the largest and smallest tyre of the authorised tyre sizes.

4.2.3.   Cooling

The cooling may be carried out according to the test requirements specified in the following Tables A14.

4.2.4.   Preparation of the brake

4.2.4.1.   Disc brakes

The test is conducted using a new disc with new brake lining assemblies which have been type approved according to Regulation No 78 or 90 (in the condition as mounted on the vehicle).

4.3.   Alternative dynamometer performance test

4.3.1.   Burnishing

According to Table A14/5.1.3.1.1.

4.4.   Service braking system

4.4.1.   Dry stop test

This test shall be carried out pursuant to Regulation No 78, Annex 3, paragraph 3.

4.4.2.   Heat fade test

This test is applicable to vehicle categories L3, L4 and L5.

This test shall be carried out pursuant to Regulation No 78, Annex 3, paragraph 7.

4.4.3.   Testing the dynamic frictional properties

With cold brakes, the performance of the replacement brake disc shall be compared with the original equivalent by comparing the results of the test below.

4.4.3.1.   Using the replacement brake disc, at least six consecutive brake applications with different, gradually increasing control forces or brake pressures are carried out as part of the process up to a mean fully developed deceleration of 6 m/s2. The maximum control force or line pressure have not to exceed the maximum allowed control forces or line pressure permitted for this category of vehicle, in which connection the initial speed for the testing of front or rear wheel brake disc is as per the table below:

Table A14/4.4.3.1

Vehicle category

Test speed in km/h

Front wheel

Rear wheel

L1 L2

30

30

L3 L4 L5

70

45

Prior to each brake application, the initial temperature of the brake disc shall be ≤ 80 °C.

4.4.3.2.   The brake test described in paragraph 4.4.3.1 also shall be carried out using the original brake disc.

4.4.3.3.   The dynamic frictional properties of the replacement brake disc can be regarded as similar to those of the original brake disc, provided the values attained in relation to the mean fully developed deceleration at the same operating pressures or control forces in the region of the upper 2/3 of the curve generated do not deviate by either ± 15 per cent or ± 0,4 m/s2 from those of the original brake disc (see an example of the curve in Figure 3 and Figure 4 of Annex 14).

5.   INTEGRITY TEST USING AN INERTIA DYNAMOMETER

The tests are conducted in accordance with paragraph 5.1 (discs).

A single test per test group is required unless the replacement part does not achieve the required number of cycles before damage or failure (see paragraph 5.1.1.1.3 or 5.1.1.2.3 of this annex).

The brake should be installed on the dynamometer in accordance with its fitting position on the vehicle (rigidly mounted brake or this installed by means of a stub axle are exempt).

The temperature of the brake disc should be measured in as close proximity to the friction rubbing surface as possible. The temperature measurement should be recorded and the method and measuring point shall be the same for all tests.

If cooling air is used during a brake application or between brake applications inside one braking cycle, the speed of the airflow at the brake shall be limited to vair = 0,33 v

Where:

v

=

vehicle test speed at initiation of braking.

In other cases cooling air is not restricted.

The temperature of the cooling air shall be the ambient temperature.

5.1.   Brake disc thermal fatigue test

This test is conducted using a new disc, an original brake caliper of the vehicle(s) concerned and new brake lining assemblies of the vehicle(s) concerned which have been type approved according to Regulation No 78 or 90 (in the condition as mounted on the vehicle).

Worn brake linings may be replaced during the test if necessary.

5.1.1.   This test is applicable to vehicle categories L3, L4 and L5.

5.1.2.   Test conditions

The inertia mass of the inertia dynamometer shall be determined in accordance with the requirements laid down in paragraphs 4.2.1, 4.2.1.1 and 4.2.1.2 of Annex 14.

The rotational speed of the dynamometer shall correspond to the linear test speed of the vehicle based on the mean of the largest and smallest dynamic rolling radius of the tyres authorized for that vehicle.

5.1.3.   Front disc

5.1.3.1.   Test programme

5.1.3.1.1.   Burnishing

According to Table A14/5.1.3.1.1.

Table A14/5.1.3.1.1

Burnishing

Step

Vehicle gross weight

[kg]

Initial speed

[km/h]

Final speed

[km/h]

Deceleration

[m/s2]

Starting temperature before the braking

[°C] MAX

Brakings quantity

Max speed of the permitted airflow during the brake application

[m/s]

1

75 %/disc q.ty

80

30

4

100

60

30

5.1.3.1.2.   Fatigue test

According to Table A14/5.1.3.1.2.

Table A14/5.1.3.1.2

Thermal fatigue test

Step

Vehicle gross weight

[kg]

Initial speed

[km/h]

Final speed

[km/h]

Deceleration

[m/s2]

Starting temperature before the brakings

[°C] +/– 10 °C

Time between 2 consecutive brakings

[s]

Brakings quantity

Max speed of the permitted airflow during the brake application

[m/s]

1

thermal

75 %/discs q.ty

50 % Vmax

5

7

100 (a)

30

5

20

2

functional

75 %/discs q.ty

80 % Vmax

5

8

200

1

30

3

mechanic

100 %/discs q.ty

60 % Vmax

5

10

200

2

30

Steps from 1 to 3 = 1 cycle; repeating for a total of 20 cycles (= 160 brakings)

(a)

Starting temperature of the 1st braking only

(b)

In case of early wear of the friction material of the pads, the use of another pads set is allowed; in this case, before completing the test, the new pads set must be burnished according to paragraph 5.1.3.1.1, always using the brake disc under test.

5.1.4.   Rear disc

5.1.4.1.   Test program

5.1.4.1.1.   Burnishing

According to Table A14/5.1.4.1.1.

Table A14/5.1.4.1.1

Burnishing

Step

Vehicle gross weight

[kg]

Initial speed

[km/h]

Final speed

[km/h]

Deceleration

[m/s2]

Starting temperature before the brakings

[°C] MAX

Brakings quantity

Max speed of the permitted airflow during the brake application

[m/s]

1

50 %

60

30

2

100

60

30

5.1.4.1.2.   Fade test

According to Table A14/5.1.4.1.2.

Table A14/5.1.4.1.2

Fade test

Step

Vehicle gross weight

[kg]

Initial speed

[km/h]

Final speed

[km/h]

Deceleration

[m/s2]

Starting temperature before the first braking

[°C] MAX

Time between 2 consecutive brakings

[s]

Brakings quantity

Max speed of the permitted airflow during the brake application

[m/s]

1

50 %

40 %Vmax

20 %Vmax

2

100

30

15

10

5.1.4.1.3.   Fatigue test

According to Table A14/5.1.4.1.3.

Table A14/5.1.4.1.3.

Thermal fatigue test

Step

Vehicle gross weight

[kg]

Initial speed

[km/h]

Final speed

[km/h]

Deceleration [m/s2]

Starting temperature before the braking

[°C] +/– 10 °C

Time between 2 consecutive brakings

[s]

Brakings quantity

Max speed of the permitted airflow during the brake application

[m/s]

1

thermal

50 %

40 % Vmax

20 % Vmax

3

100 (1)

30

5

20

2

functional

50 %

50 % Vmax (2)

5

4

200

1

30

60 % Vmax (3)

75 % Vmax (4)

3

mechanic

90 %

40 % Vmax (2)

5

5

200

2

30

48 % Vmax (3)

60 % Vmax (4)

Steps from 1 to 3 = 1 cycle; repeating for a total of 20 cycles (= 160 brakings)

(e)

In case of early wear of the friction material of the pads, the use of another pads set is allowed; in this case, before completing the test, the new pads set must be burnished according to paragraphs 5.1.4.1.1-5.1.4.1.2, always using the brake disc under test.

5.1.5.   Test result (brake disc thermal fatigue test)

The test is regarded as having been passed if the cycles prescribed in:

(a)

Tables A14/5.1.3.1.1-5.1.3.1.2 for front discs

(b)

Tables A14/5.1.4.1.1-5.1.4.1.2-5.1.4.1.3 for rear discs are completed without damage or failure.

If less than 20 cycles, according to ‘Thermomechanical Fatigue test’ in Tables A14/5.1.3.1.2 and A14/5.1.4.1.3, but more than 15 are completed without damage or failure, then the test must be repeated on a new replacement part.

Under these circumstances both tests must complete more than 15 cycles without damage or failure for the part to have passed the test.

If less than 15 cycles are completed before damage or failure, then a test should be conducted on the original part and the results compared.

If the damage of failure point is no worse than the quantity of cycles of the original part – 10 per cent, then the test is regarded as having been passed.

Damage or failure, in this context, means:

5.1.5.1.

During the test:

Temperature exceeds 600 °C.

5.1.5.2.

After the test:

(a)

Contact between caliper and disc;

(b)

Cracks, permanent deformation or breakings;

(c)

Abnormal wear;

(d)

A 0,150 mm maximum increasing of run-out, compared to the initial value measured before the test, is allowed;

(e)

A 0,250 mm maximum run-out is allowed;

(f)

A 0,100 mm maximum (for ‘full floating’ disc) straightness increasing, compared to the initial value measured before the test, is allowed.


(1)  Starting temperature of the 1st braking only

(2)  Disc diameter ≤ 245 mm

(3)  Disc diameter > 245 < 280 mm

(4)  Disc diameter ≥ 280 mm


ANNEX 15

CRITERIA FOR GROUPS OF DISCS FOR VEHICLES OF CATEGORIES L1, L2, L3, L4 AND L5

1.   DEFINITION OF THE DISC BRAKING SURFACE WIDTH

Braking surface means the surface of a brake disc on which the brake pads work. The braking surface width is calculated between the disc outer diameter and an internal diameter defined as follows:

1.1.

Case of braking surface with lightening (holes, slots, wave, etc.) on the braking surface (Figure 1) only: 3 mm towards the centre of the disc from the end of the lightening.

1.2.

Case of braking surface with lightening (holes, slots, wave, etc.) with distance from the disc's internal diameter lower than 5 mm (Figure 2): diameter of the brake disc undercut.

1.3.

Case of braking surface with lightening (holes, slots, wave, etc.) which terminate inside, outside the brake disc undercut (Figure 3): diameter of the brake disc internal undercut.

1.4.

All other cases: internal diameter defined by the radial width of the largest combinable pad, to which 3 mm need to be added (Figure 4).

Figure 1

Figure 2

Image

Figure 3

Figure 4

Image

Image

2.   GROUPS OF DISCS

‘Group of discs’ means a grouping of similar discs, so that the tests performed on a single disc are considered valid for the entire group of similar discs.

Discs belonging to the same group must have following features, as indicated at following paragraphs from 2.1 to 2.9.

For a given group of discs, the approval tests may be performed on one disc, belonging to the group, subjected to the highest braking torque and to the largest energy to be absorbed.

The similarity between the discs is defined by following grouping criteria, that must be simultaneously fulfilled:

2.1.

Same type of the reference disc for that group (one-piece, composed fixed or floating).

2.2.

Braking surface material to be chosen among those listed at paragraph 5.3.3.2.2; other materials can be used provided that, under approval, they are declared with equal demonstration of test results according to paragraph 8. In this case, the extension applies to all groups listed in Table 3 for dimensions equal or lower to that demonstrated.

2.3.

Braking surface lightening: any solution is allowed (holes, slots, wave, etc.) provided that:

2.3.1.

For discs having the same diameter and thickness: the mass change of the braking surface swept by the pads must be within the range of ± 20 per cent with respect to the reference disc.

2.3.2.

All other cases: the ratio between the area of the disc braking surface, as defined in paragraph 4, and the lightening area (sum of the area of holes, slots, etc.) must match those of the reference disc, with tolerance of – 20 per cent maximum.

Examples:

R reference disc, Ø 300 mm:

Outer diameter 300 mm, radial width of the braking surface 36,5 mm ≥ total area A = 302 cm2

Lightening on the braking surface: 64 holes diameter 7 mm ≥ total area

B = 24,6 cm2

A/B ratio = 12,3

S disc Ø 285:

Outer diameter 285 mm, radial width of the braking surface 41 mm ≥ total area A = 314 cm2

Lightening on the braking surface: 60 holes diameter 7 mm ≥ total area

B = 23 cm2

A/B ratio = 13,7

S disc may belong to the same group of R reference disc, as the 13,7 ratio is greater than the 12, ratio of R disc.

T disc Ø 260:

Outer diameter 260 mm, radial width of the braking surface 29 mm ≥ total area A = 210 cm2

Lightening on the braking surface: 64 holes diameter 7 mm ≥ total area

B = 24,6 cm2

A/B ratio = 8,5

T disc may not belong to the same group of R reference disc as the 8,5 ratio, – 31 per cent with respect to the 12,3 ratio of R disc, therefore over the specified tolerance of – 20 per cent maximum.

2.4.

Same material and mechanical properties, as specified in the international standard for materials, or higher, for the bell.

In the case of disc with steel bell, compared with the disc tested for approval with aluminium bell, the exception of belonging to the same group is allowed; the reverse is not allowed.

2.5.

Same material and mechanical properties, as specified in the international standard for materials, or higher, for the bell/braking surface fasteners.

2.6.

Spokes of the bell with full/empty ratio — measured on the average circumference between end of the mounting face and beginning of the braking surface — within the range ± 20 per cent, thickness within the range between + 30 per cent and – 10 per cent and same mechanical properties, as specified in the international standard for materials, with respect to the reference disc.

2.7.

Same technical solution for the bell-braking surface fasteners (same drawing and materials; for the quantity of bell-braking surface fasteners, permitted the same quantity with a tolerance of +2 – 0).

2.8.

The quantity of fixing holes is not binding by group belonging, in order to ensure interchangeability with original disc.

2.9.

Outer diameter included in the range of 50 mm, according to Table 2.9:

Table A15/2.9

Range

[mm]

One-piece

Composite fixed

Floating discs

≥ 150 < 200

X

X

X

≥ 200 < 250

X

X

X

≥ 250 < 300

X

X

X

≥ 300 < 350

X

X

X

There are no groups for ‘peripheral’ discs (fitted on the wheel outer diameter).

Note:

For new applications that will be included into an existing group, an increase of 10 per cent maximum kinetic energy is allowed with reference to the value used for the approval of the disc of the reference group.

Data for the new calculation of kinetic energy must be traced from the product data sheet issued by the vehicle manufacturer.

In the case of discs with applications on both wheels, front and rear, the approval tests at paragraph 8 shall be conducted on heaviest application.


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