22.10.2007   

EN

Official Journal of the European Union

L 278/1


COUNCIL REGULATION (EC) No 1183/2007

of 18 September 2007

amending and updating Regulation (EC) No 1334/2000 setting up a Community regime for the control of exports of dual-use items and technology

THE COUNCIL OF THE EUROPEAN UNION,

Having regard to the Treaty establishing the European Community, and in particular Article 133 thereof,

Having regard to the proposal from the Commission,

Whereas:

(1)

Council Regulation (EC) No 1334/2000 (1) requires dual-use items (including software and technology) to be subject to effective control when they are exported from the Community.

(2)

In order to enable Member States and the Community to comply with their international commitments, Annex I to Regulation (EC) No 1334/2000 establishes the common list of dual-use items and technology referred to in Article 3 of that Regulation, which implements internationally agreed dual-use controls, including the Wassenaar Arrangement, the Missile Technology Control Regime (MTCR), the Nuclear Suppliers Group (NSG), the Australia Group and the Chemical Weapons Convention (CWC).

(3)

Article 11 of Regulation (EC) No 1334/2000 provides for Annex I and Annex IV to be updated in accordance with the relevant obligations and commitments, and any modification thereof, that each Member State has accepted as a member of the international non-proliferation regimes and export control arrangements, or by ratification of relevant international treaties.

(4)

Annex I and Annex IV to Regulation (EC) No 1334/2000 should be amended in order to take account of changes adopted by the Wassenaar Arrangement, the Australia Group, the MTCR and the NSG subsequent to the amendments made to those Annexes by Regulation (EC) No 394/2006.

(5)

In order to ease references for export control authorities and operators, an updated and consolidated version of the Annexes to Regulation (EC) No 1334/2000 should be published.

(6)

Regulation (EC) No 1334/2000 should therefore be amended accordingly,

HAS ADOPTED THIS REGULATION:

Article 1

The Annexes to Regulation (EC) No 1334/2000 shall be replaced by the text in the Annex to this Regulation.

Article 2

This Regulation shall enter into force on the 30th day following its publication in the Official Journal of the European Union.

This Regulation shall be binding in its entirety and directly applicable in all Member States.

Done at Brussels, 18 September 2007.

For the Council

The President

R. PEREIRA


(1)   OJ L 159, 30.6.2000, p. 1. Regulation as last amended by Regulation (EC) No 394/2006 (OJ L 74, 13.3.2006, p. 1).


ANNEX

‘ANNEX I

LIST OF DUAL-USE ITEMS AND TECHNOLOGY

(referred to in Article 3 of Regulation (EC) No 1334/2000)

This list implements internationally agreed dual-use controls including the Wassenaar Arrangement, the Missile Technology Control Regime (MTCR), the Nuclear Suppliers' Group (NSG), the Australia Group and the Chemical Weapons Convention (CWC). No account has been taken of any items that Member States wish to place on an exclusion list. No account has been taken of any national controls (non-regime origin controls) that may be maintained by Member States.

GENERAL NOTES TO ANNEX I

1.

For control of goods which are designed or modified for military use, see the relevant list(s) of controls on military goods maintained by individual Member States. References in this Annex that state "SEE ALSO MILITARY GOODS CONTROLS" refer to the same lists.

2.

The object of the controls contained in this Annex should not be defeated by the export of any non-controlled goods (including plant) containing one or more controlled components when the controlled component or components are the principal element of the goods and can feasibly be removed or used for other purposes.

N.B.: In judging whether the controlled component or components are to be considered the principal element, it is necessary to weigh the factors of quantity, value and technological know-how involved and other special circumstances which might establish the controlled component or components as the principal element of the goods being procured.

3.

Goods specified in this Annex include both new and used goods.

NUCLEAR TECHNOLOGY NOTE (NTN)

(To be read in conjunction with section E of Category 0)

The "technology" directly associated with any goods controlled in Category 0 is controlled according to the provisions of Category 0.

"Technology" for the "development", "production" or "use" of goods under control remains under control even when applicable to non-controlled goods.

The approval of goods for export also authorises the export to the same end-user of the minimum "technology" required for the installation, operation, maintenance and repair of the goods.

Controls on "technology" transfer do not apply to information "in the public domain" or to "basic scientific research".

GENERAL TECHNOLOGY NOTE (GTN)

(To be read in conjunction with section E of Categories 1 to 9)

The export of "technology" which is "required" for the "development", "production" or "use" of goods controlled in Categories 1 to 9, is controlled according to the provisions of Categories 1 to 9.

"Technology" "required" for the "development", "production" or "use" of goods under control remains under control even when applicable to non-controlled goods.

Controls do not apply to that "technology" which is the minimum necessary for the installation, operation, maintenance (checking) and repair of those goods which are not controlled or whose export has been authorised.

N.B.: this does not release such "technology" specified in 1E002.e., 1E002.f., 8E002.a. and 8E002.b.

Controls on "technology" transfer do not apply to information "in the public domain", to "basic scientific research" or to the minimum necessary information for patent applications.

GENERAL SOFTWARE NOTE (GSN)

(This note overrides any control within section D of Categories 0 to 9)

Categories 0 to 9 of this list do not control "software" which is either:

a.

Generally available to the public by being:

1.

sold from stock at retail selling points, without restriction, by means of:

a.

over-the-counter transactions;

b.

mail order transactions;

c.

electronic transactions; or

d.

telephone order transactions; and

2.

designed for installation by the user without further substantial support by the supplier; or

N.B.: Entry a. of the General Software Note does not release "software" specified in Category 5 — Part 2 ("Information Security").

b.

"In the public domain".

EDITORIAL PRACTICES

In accordance with the rules set out in paragraph 101 on page 86 of the Interinstitutional Style Guide (1997 edition), for texts in English published in the Official Journal of the European Communities:

a comma is used to separate the whole number from the decimals,

whole numbers are presented in series of three, each series being separated by a thin space.

DEFINITIONS OF TERMS USED IN THIS ANNEX

Definitions of terms between "single quotation marks" are given in a Technical note to the relevant item.

Definitions of terms between "double quotation marks" are as follows:

N.B.: Category references are given in brackets after the defined term.

"Accuracy" (2 6), usually measured in terms of inaccuracy, means the maximum deviation, positive or negative, of an indicated value from an accepted standard or true value.

"Active flight control systems" (7) are systems that function to prevent undesirable "aircraft" and missile motions or structural loads by autonomously processing outputs from multiple sensors and then providing necessary preventive commands to effect automatic control.

"Active pixel" (6 8) is a minimum (single) element of the solid state array which has a photoelectric transfer function when exposed to light (electromagnetic) radiation.

"Adapted for use in war" (1) means any modification or selection (such as altering purity, shelf life, virulence, dissemination characteristics, or resistence to UV radiation) designed to increase the effectiveness in producing casualties in humans or animals, degrading equipment or damaging crops or the environment.

"Adjusted Peak Performance" (4) is an adjusted peak rate at which "digital computers" perform 64-bit or larger floating point additions and multiplications, and is expressed in Weighted TeraFLOPS (WT) with units of 1012 adjusted floating point operations per second.

N.B.: see Category 4, Technical note.

"Aircraft" (1 7 9) means a fixed wing, swivel wing, rotary wing (helicopter), tilt rotor or tilt-wing airborne vehicle.

N.B.: see also "civil aircraft".

"All compensations available" (2) means after all feasible measures available to the manufacturer to minimise all systematic positioning errors for the particular machine-tool model are considered.

"Allocated by the ITU" (3 5) means the allocation of frequency bands according to the current edition of the ITU Radio Regulations for primary, permitted and secondary services.

N.B.: additional and alternative allocations are not included.

"Angle random walk" (7) means the angular error build-up with time that is due to white noise in angular rate. (IEEE STD 528-2001)

"Angular position deviation" (2) means the maximum difference between angular position and the actual, very accurately measured angular position after the workpiece mount of the table has been turned out of its initial position (ref. VDI/VDE 2617, Draft: "Rotary tables on coordinate measuring machines").

"APP" (4) is equivalent to "Adjusted Peak Performance".

"Asymmetric algorithm" (5) means a cryptographic algorithm using different, mathematically-related keys for encryption and decryption.

N.B.: a common use of "asymmetric algorithms" is key management.

"Automatic target tracking" (6) means a processing technique that automatically determines and provides as output an extrapolated value of the most probable position of the target in real time.

"Average output power" (6) means the total "laser" output energy in joules divided by the "laser duration" in seconds.

"Basic gate propagation delay time" (3) means the propagation delay time value corresponding to the basic gate used in a "monolithic integrated circuit". For a "family" of "monolithic integrated circuits", this may be specified either as the propagation delay time per typical gate within the given "family" or as the typical propagation delay time per gate within the given "family".

N.B. 1: "Basic gate propagation delay time" is not to be confused with the input/output delay time of a complex "monolithic integrated circuit".

N.B. 2: "Family" consists of all integrated circuits to which all of the following are applied as their manufacturing methodology and specifications except their respective functions:

a.

the common hardware and software architecture;

b.

the common design and process technology; and

c.

the common basic characteristics.

"Basic scientific research" (GTN NTN) means experimental or theoretical work undertaken principally to acquire new knowledge of the fundamental principles of phenomena or observable facts, not primarily directed towards a specific practical aim or objective.

"Bias" (accelerometer) (7) means an accelerometer output when no acceleration is applied.

"Camming" (2) means axial displacement in one revolution of the main spindle measured in a plane perpendicular to the spindle faceplate, at a point next to the circumference of the spindle faceplate (Reference: ISO 230/1 1986, paragraph 5.63).

"Carbon fibre preforms" (1) means an ordered arrangement of uncoated or coated fibres intended to constitute a framework of a part before the "matrix" is introduced to form a "composite".

"CE" is equivalent to "computing element".

"CEP" (circle of equal probability) (7) is a measure of accuracy; the radius of the circle centred at the target, at a specific range, in which 50 % of the payloads impact.

"Chemical laser" (6) means a "laser" in which the excited species is produced by the output energy from a chemical reaction.

"Chemical mixture" (1) means a solid, liquid or gaseous product made up of two or more components which do not react together under the conditions under which the mixture is stored.

"Circulation-controlled anti-torque or circulation controlled direction control systems" (7) are systems that use air blown over aerodynamic surfaces to increase or control the forces generated by the surfaces.

"Civil aircraft" (1 7 9) means those "aircraft" listed by designation in published airworthiness certification lists by the civil aviation authorities to fly commercial civil internal and external routes or for legitimate civil, private or business use.

N.B.: see also "aircraft".

"Commingled" (1) means filament to filament blending of thermoplastic fibres and reinforcement fibres in order to produce a fibre reinforcement "matrix" mix in total fibre form.

"Comminution" (1) means a process to reduce a material to particles by crushing or grinding.

"Common channel signalling" (5) is a signalling method in which a single channel between exchanges conveys, by means of labelled messages, signalling information relating to a multiplicity of circuits or calls and other information such as that used for network management.

"Communications channel controller" (4) means the physical interface which controls the flow of synchronous or asynchronous digital information. It is an assembly that can be integrated into computer or telecommunications equipment to provide communications access.

"Compensation systems" (6) consist of the primary scalar sensor, one or more reference sensors (e.g., vector magnetometers) together with software that permit reduction of rigid body rotation noise of the platform.

"Composite" (1 2 6 8 9) means a "matrix" and an additional phase or additional phases consisting of particles, whiskers, fibres or any combination thereof, present for a specific purpose or purposes.

"Compound rotary table" (2) means a table allowing the workpiece to rotate and tilt about two non-parallel axes, which can be coordinated simultaneously for "contouring control".

"Computing element" ("CE") (4) means the smallest computational unit that produces an arithmetic or logic result.

"Contouring control" (2) means two or more "numerically controlled" motions operating in accordance with instructions that specify the next required position and the required feed rates to that position. These feed rates are varied in relation to each other so that a desired contour is generated (ref. ISO/DIS 2806-1980).

"Critical temperature" (1 3 6) (sometimes referred to as the transition temperature) of a specific "superconductive" material means the temperature at which the material loses all resistance to the flow of direct electrical current.

"Cryptography" (5) means the discipline which embodies principles, means and methods for the transformation of data in order to hide its information content, prevent its undetected modification or prevent its unauthorised use. "Cryptography" is limited to the transformation of information using one or more "secret parameters" (e.g., crypto variables) or associated key management.

N.B.: "secret parameter": a constant or key kept from the knowledge of others or shared only within a group.

"CW laser" (6) means a "laser" that produces a nominally constant output energy for greater than 0,25 seconds.

"Data-Based Referenced Navigation" ("DBRN") (7) Systems means systems which use various sources of previously measured geo-mapping data integrated to provide accurate navigation information under dynamic conditions. Data sources include bathymetric maps, stellar maps, gravity maps, magnetic maps or 3-D digital terrain maps.

"Deformable mirrors" (6) (also known as adaptive optic mirrors) means mirrors having:

a.

a single continuous optical reflecting surface which is dynamically deformed by the application of individual torques or forces to compensate for distortions in the optical waveform incident upon the mirror; or

b.

multiple optical reflecting elements that can be individually and dynamically repositioned by the application of torques or forces to compensate for distortions in the optical waveform incident upon the mirror.

"Depleted uranium" (0) means uranium depleted in the isotope 235 below that occurring in nature.

"Development" (GTN NTN All) is related to all phases prior to serial production, such as: design, design research, design analyses, design concepts, assembly and testing of prototypes, pilot production schemes, design data, process of transforming design data into a product, configuration design, integration design, layouts.

"Diffusion bonding" (1 2 9) means a solid state molecular joining of at least two separate metals into a single piece with a joint strength equivalent to that of the weakest material.

"Digital computer" (4 5) means equipment which can, in the form of one or more discrete variables, perform all of the following:

a.

accept data;

b.

store data or instructions in fixed or alterable (writable) storage devices;

c.

process data by means of a stored sequence of instructions which is modifiable; and

d.

provide output of data.

N.B.: modifications of a stored sequence of instructions include replacement of fixed storage devices, but not a physical change in wiring or interconnections.

"Digital transfer rate" means the total bit rate of the information that is directly transferred on any type of medium.

N.B.: see also "total digital transfer rate".

"Direct-acting hydraulic pressing" (2) means a deformation process which uses a fluid-filled flexible bladder in direct contact with the workpiece.

"Drift rate" (gyro) (7) means the component of gyro output that is functionally independent of input rotation. It is expressed as an angular rate. (IEEE STD 528-2001).

"Dynamic adaptive routing" (5) means automatic rerouting of traffic based on sensing and analysis of current actual network conditions.

N.B.: this does not include cases of routing decisions taken on predefined information.

"Dynamic signal analysers" (3) means "signal analysers" which use digital sampling and transformation techniques to form a Fourier spectrum display of the given waveform including amplitude and phase information.

N.B.: see also "signal analysers".

"Effective gramme" (0 1) of "special fissile material" means:

a.

for plutonium isotopes and uranium-233, the isotope weight in grammes;

b.

for uranium enriched 1 per cent or greater in the isotope uranium-235, the element weight in grammes multiplied by the square of its enrichment expressed as a decimal weight fraction;

c.

for uranium enriched below 1 per cent in the isotope uranium-235, the element weight in grammes multiplied by 0,0001;

"Electronic assembly" (2 3 4 5) means a number of electronic components (i.e., "circuit elements", "discrete components", integrated circuits, etc.) connected together to perform (a) specific function(s), replaceable as an entity and normally capable of being disassembled.

N.B. 1: "circuit element": a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc.

N.B. 2: "discrete component": a separately packaged "circuit element" with its own external connections.

"Electronically steerable phased array antenna" (5 6) means an antenna which forms a beam by means of phase coupling, i.e., the beam direction is controlled by the complex excitation coefficients of the radiating elements and the direction of that beam can be varied in azimuth or in elevation, or both, by application, both in transmission and reception, of an electrical signal.

"End-effectors" (2) means grippers, "active tooling units" and any other tooling that is attached to the baseplate on the end of a "robot" manipulator arm.

N.B.: "active tooling unit" means a device for applying motive power, process energy or sensing to the workpiece.

"Equivalent Density" (6) means the mass of an optic per unit optical area projected onto the optical surface.

"Expert systems" (7) mean systems providing results by application of rules to data which are stored independently of the "programme" and capable of any of the following:

a.

modifying automatically the "source code" introduced by the user;

b.

providing knowledge linked to a class of problems in quasi-natural language; or

c.

acquiring the knowledge required for their development (symbolic training).

"FADEC" is equivalent to "full authority digital engine control".

"Fault tolerance" (4) is the capability of a computer system, after any malfunction of any of its hardware or "software" components, to continue to operate without human intervention, at a given level of service that provides: continuity of operation, data integrity and recovery of service within a given time.

"Fibrous or filamentary materials" (0 1 2 8) include:

a.

continuous "monofilaments";

b.

continuous "yarns" and "rovings";

c.

"tapes", fabrics, random mats and braids;

d.

chopped fibres, staple fibres and coherent fibre blankets;

e.

whiskers, either monocrystalline or polycrystalline, of any length;

f.

aromatic polyamide pulp.

"Film type integrated circuit" (3) means an array of "circuit elements" and metallic interconnections formed by deposition of a thick or thin film on an insulating "substrate".

N.B.: "Circuit element" is a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc.

"Fixed" (5) means that the coding or compression algorithm cannot accept externally supplied parameters (e.g., cryptographic or key variables) and cannot be modified by the user.

"Flight control optical sensor array" (7) is a network of distributed optical sensors, using "laser" beams, to provide real-time flight control data for on-board processing.

"Flight path optimisation" (7) is a procedure that minimizes deviations from a four-dimensional (space and time) desired trajectory based on maximizing performance or effectiveness for mission tasks.

"Focal plane array" (6) means a linear or two-dimensional planar layer, or combination of planar layers, of individual detector elements, with or without readout electronics, which work in the focal plane.

N.B.: This is not intended to include a stack of single detector elements or any two, three or four element detectors provided time delay and integration is not performed within the element.

"Fractional bandwidth" (3) means the "instantaneous bandwidth" divided by the centre frequency, expressed as a percentage.

"Frequency hopping" (5) means a form of "spread spectrum" in which the transmission frequency of a single communication channel is made to change by a random or pseudo-random sequence of discrete steps.

"Frequency switching time" (3 5) means the maximum time (i.e., delay), taken by a signal, when switched from one selected output frequency to another selected output frequency, to reach:

a.

a frequency within 100 Hz of the final frequency; or

b.

an output level within 1 dB of the final output level.

"Frequency synthesiser" (3) means any kind of frequency source or signal generator, regardless of the actual technique used, providing a multiplicity of simultaneous or alternative output frequencies, from one or more outputs, controlled by, derived from or disciplined by a lesser number of standard (or master) frequencies.

"Full Authority Digital Engine Control" ("FADEC") (7 9) means an electronic control system for gas turbine or combined cycle engines utilising a digital computer to control the variables required to regulate engine thrust or shaft power output throughout the engine operating range from the beginning of fuel metering to fuel shutoff.

"Gas Atomisation" (1) means a process to reduce a molten stream of metal alloy to droplets of 500 micrometre diameter or less by a high pressure gas stream.

"Geographically dispersed" (6) is where each location is distant from any other more than 1 500 m in any direction. Mobile sensors are always considered "geographically dispersed".

"Guidance set" (7) means systems that integrate the process of measuring and computing a vehicles position and velocity (i.e. navigation) with that of computing and sending commands to the vehicles flight control systems to correct the trajectory.

"Hot isostatic densification" (2) means the process of pressurising a casting at temperatures exceeding 375 K (102 °C) in a closed cavity through various media (gas, liquid, solid particles, etc.) to create equal force in all directions to reduce or eliminate internal voids in the casting.

"Hybrid computer" (4) means equipment which can perform all of the following:

a.

accept data;

b.

process data, in both analogue and digital representations; and

c.

provide output of data.

"Hybrid integrated circuit" (3) means any combination of integrated circuit(s), or integrated circuit with "circuit elements" or "discrete components" connected together to perform (a) specific function(s), and having all of the following characteristics:

a.

containing at least one unencapsulated device;

b.

connected together using typical IC production methods;

c.

replaceable as an entity; and

d.

not normally capable of being disassembled.

N.B. 1: "circuit element": a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc.

N.B. 2: "discrete component": a separately packaged "circuit element" with its own external connections.

"Image enhancement" (4) means the processing of externally derived information-bearing images by algorithms such as time compression, filtering, extraction, selection, correlation, convolution or transformations between domains (e.g., fast Fourier transform or Walsh transform). This does not include algorithms using only linear or rotational transformation of a single image, such as translation, feature extraction, registration or false coloration.

"Immunotoxin" (1) is a conjugate of one cell specific monoclonal antibody and a "toxin" or "sub-unit of toxin", that selectively affects diseased cells.

"In the public domain" (GTN NTN GSN), as it applies herein, means "technology" or "software" which has been made available without restrictions upon its further dissemination (copyright restrictions do not remove "technology" or "software" from being "in the public domain").

"Information security" (4 5) is all the means and functions ensuring the accessibility, confidentiality or integrity of information or communications, excluding the means and functions intended to safeguard against malfunctions. This includes "cryptography", "cryptanalysis", protection against compromising emanations and computer security.

N.B.: "cryptanalysis": analysis of a cryptographic system or its inputs and outputs to derive confidential variables or sensitive data, including clear text.

"Instantaneous bandwidth" (3 5 7) means the bandwidth over which output power remains constant within 3 dB without adjustment of other operating parameters.

"Instrumented range" (6) means the specified unambiguous display range of a radar.

"Insulation" (9) is applied to the components of a rocket motor, i.e. the case, nozzle, inlets, case closures, and includes cured or semi-cured compounded rubber sheet stock containing an insulating or refractory material. It may also be incorporated as stress relief boots or flaps.

"Interconnected radar sensors" (6) means two or more radar sensors are interconnected when they mutually exchange data in real time.

"Interior lining" (9) is suited for the bond interface between the solid propellant and the case or insulating liner. Usually a liquid polymer based dispersion of refractory or insulating materials, e.g. carbon filled hydroxyl terminated polybutadiene (HTPB) or other polymer with added curing agents sprayed or screeded over a case interior.

"Intrinsic Magnetic Gradiometer" (6) is a single magnetic field gradient sensing element and associated electronics the output of which is a measure of magnetic field gradient.

N.B.: see also "magnetic gradiometer".

"Isolated live cultures" (1) includes live cultures in dormant form and in dried preparations.

"Isostatic presses" (2) mean equipment capable of pressurising a closed cavity through various media (gas, liquid, solid particles, etc.) to create equal pressure in all directions within the cavity upon a workpiece or material.

"Laser" (0 2 3 5 6 7 8 9) is an assembly of components which produce both spatially and temporally coherent light that is amplified by stimulated emission of radiation.

N.B.: see also:

"Chemical laser";

"Q-switched laser";

"Super High Power Laser";

"Transfer laser".

"Laser duration" (6) means the time over which a "laser" emits "laser" radiation, which for "pulsed lasers" corresponds to the time over which a single pulse or series of consecutive pulses is emitted.

"Lighter-than-air vehicles" (9) means balloons and airships that rely on hot air or other lighter-than-air gases such as helium or hydrogen for their lift.

"Linearity" (2) (usually measured in terms of non-linearity) means the maximum deviation of the actual characteristic (average of upscale and downscale readings), positive or negative, from a straight line so positioned as to equalise and minimise the maximum deviations.

"Local area network" (4) is a data communication system having all of the following characteristics:

a.

allows an arbitrary number of independent "data devices" to communicate directly with each other; and

b.

is confined to a geographical area of moderate size (e.g., office building, plant, campus, warehouse).

N.B.: "data device" means equipment capable of transmitting or receiving sequences of digital information.

"Magnetic Gradiometers" (6) are instruments designed to detect the spatial variation of magnetic fields from sources external to the instrument. They consist of multiple "magnetometers" and associated electronics the output of which is a measure of magnetic field gradient.

N.B.: see also "intrinsic magnetic gradiometer".

"Magnetometers" (6) are instruments designed to detect magnetic fields from sources external to the instrument. They consist of a single magnetic field sensing element and associated electronics the output of which is a measure of the magnetic field.

"Main storage" (4) means the primary storage for data or instructions for rapid access by a central processing unit. It consists of the internal storage of a "digital computer" and any hierarchical extension thereto, such as cache storage or non-sequentially accessed extended storage.

"Materials resistant to corrosion by UF6 " (0) may be copper, stainless steel, aluminium, aluminium oxide, aluminium alloys, nickel or alloy containing 60 weight percent or more nickel and UF6- resistant fluorinated hydrocarbon polymers, as appropriate for the type of separation process.

"Matrix" (1 2 8 9) means a substantially continuous phase that fills the space between particles, whiskers or fibres.

"Measurement uncertainty" (2) is the characteristic parameter which specifies in what range around the output value the correct value of the measurable variable lies with a confidence level of 95 %. It includes the uncorrected systematic deviations, the uncorrected backlash and the random deviations (ref. ISO 10360-2, or VDI/VDE 2617).

"Mechanical Alloying" (1) means an alloying process resulting from the bonding, fracturing and rebonding of elemental and master alloy powders by mechanical impact. Non-metallic particles may be incorporated in the alloy by addition of the appropriate powders.

"Melt Extraction" (1) means a process to "solidify rapidly" and extract a ribbon-like alloy product by the insertion of a short segment of a rotating chilled block into a bath of a molten metal alloy.

N.B.: "solidify rapidly": solidification of molten material at cooling rates exceeding 1 000 K/s.

"Melt Spinning" (1) means a process to "solidify rapidly" a molten metal stream impinging upon a rotating chilled block, forming a flake, ribbon or rod-like product.

N.B.: "solidify rapidly": solidification of molten material at cooling rates exceeding 1 000 K/s.

"Microcomputer microcircuit" (3) means a "monolithic integrated circuit" or "multichip integrated circuit" containing an arithmetic logic unit (ALU) capable of executing general purpose instructions from an internal storage, on data contained in the internal storage.

N.B.: the internal storage may be augmented by an external storage.

"Microprocessor microcircuit" (3) means a "monolithic integrated circuit" or "multichip integrated circuit" containing an arithmetic logic unit (ALU) capable of executing a series of general purpose instructions from an external storage.

N.B. 1: the "microprocessor microcircuit" normally does not contain integral user-accessible storage, although storage present on-the-chip may be used in performing its logic function.

N.B. 2: this includes chip sets which are designed to operate together to provide the function of a "microprocessor microcircuit".

"Microorganisms" (1 2) means bacteria, viruses, mycoplasms, rickettsiae, chlamydiae or fungi, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material including living material which has been deliberately inoculated or contaminated with such cultures.

"Missiles" (1 3 6 7 9) means complete rocket systems and unmanned aerial vehicle systems, capable of delivering at least 500 kg payload to a range of at least 300 km.

"Monofilament" (1) or filament is the smallest increment of fibre, usually several micrometres in diameter.

"Monolithic integrated circuit" (3) means a combination of passive or active "circuit elements" or both which:

a.

are formed by means of diffusion processes, implantation processes or deposition processes in or on a single semiconducting piece of material, a so-called "chip";

b.

can be considered as indivisibly associated; and

c.

perform the function(s) of a circuit.

N.B.: "circuit element" is a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc.

"Monospectral imaging sensors" (6) are capable of acquisition of imaging data from one discrete spectral band.

"Multichip integrated circuit" (3) means two or more "monolithic integrated circuits" bonded to a common "substrate".

"Multi-data-stream processing" (4) means the "microprogramme" or equipment architecture technique which permits simultaneous processing of two or more data sequences under the control of one or more instruction sequences by means such as:

a.

single Instruction Multiple Data (SIMD) architectures such as vector or array processors;

b.

multiple Single Instruction Multiple Data (MSIMD) architectures;

c.

multiple Instruction Multiple Data (MIMD) architectures, including those which are tightly coupled, closely coupled or loosely coupled; or

d.

structured arrays of processing elements, including systolic arrays.

N.B.: "microprogramme" means a sequence of elementary instructions, maintained in a special storage, the execution of which is initiated by the introduction of its reference instruction into an instruction register.

"Multispectral imaging sensors" (6) are capable of simultaneous or serial acquisition of imaging data from two or more discrete spectral bands. Sensors having more than twenty discrete spectral bands are sometimes referred to as hyperspectral imaging sensors.

"Natural uranium" (0) means uranium containing the mixtures of isotopes occurring in nature.

"Network access controller" (4) means a physical interface to a distributed switching network. It uses a common medium which operates throughout at the same "digital transfer rate" using arbitration (e.g., token or carrier sense) for transmission. Independently from any other, it selects data packets or data groups (e.g., IEEE 802) addressed to it. It is an assembly that can be integrated into computer or telecommunications equipment to provide communications access.

"Neural computer" (4) means a computational device designed or modified to mimic the behaviour of a neuron or a collection of neurons, i.e., a computational device which is distinguished by its hardware capability to modulate the weights and numbers of the interconnections of a multiplicity of computational components based on previous data.

"Noise level" (6) means an electrical signal given in terms of power spectral density. The relation between "noise level" expressed in peak-to-peak is given by S2 pp = 8 No(f2–f1), where Spp is the peak-to-peak value of the signal (e.g., nanoteslas), No is the power spectral density (e.g., (nanotesla)2/Hz) and (f2–f1) defines the bandwidth of interest.

"Nuclear reactor" (0) means the items within or attached directly to the reactor vessel, the equipment which controls the level of power in the core, and the components which normally contain, come into direct contact with or control the primary coolant of the reactor core.

"Numerical control" (2) means the automatic control of a process performed by a device that makes use of numeric data usually introduced as the operation is in progress (ref. ISO 2382).

"Object code" (9) means an equipment executable form of a convenient expression of one or more processes ("source code" (source language)) which has been converted by programming system.

"Optical amplification" (5), in optical communications, means an amplification technique that introduces a gain of optical signals that have been generated by a separate optical source, without conversion to electrical signals, i.e., using semiconductor optical amplifiers, optical fibre luminescent amplifiers.

"Optical computer" (4) means a computer designed or modified to use light to represent data and whose computational logic elements are based on directly coupled optical devices.

"Optical integrated circuit" (3) means a "monolithic integrated circuit" or a "hybrid integrated circuit", containing one or more parts designed to function as a photosensor or photoemitter or to perform (an) optical or (an) electro-optical function(s).

"Optical switching" (5) means the routing of or switching of signals in optical form without conversion to electrical signals.

"Overall current density" (3) means the total number of ampere-turns in the coil (i.e., the sum of the number of turns multiplied by the maximum current carried by each turn) divided by the total cross-section of the coil (comprising the superconducting filaments, the metallic matrix in which the superconducting filaments are embedded, the encapsulating material, any cooling channels, etc.).

"Participating state" (7 9) is a state participating in the Wassenaar Arrangement. (See www.wassenaar.org)

"Peak power" (6), means the highest level of power attained in "the laser duration".

"Personalised smart card" (5) means a smart card containing a microcircuit which has been programmed for a specific application and cannot be reprogrammed for any other application by the user.

"Power management" (7) means changing the transmitted power of the altimeter signal so that received power at the "aircraft" altitude is always at the minimum necessary to determine the altitude.

"Pressure transducers" (2) are devices that convert pressure measurements into an electrical signal.

"Previously separated" (0 1) means the application of any process intended to increase the concentration of the controlled isotope.

"Primary flight control" (7) means an "aircraft" stability or manoeuvering control using force/moment generators, i.e., aerodynamic control surfaces or propulsive thrust vectoring.

"Principal element" (4), as it applies in Category 4, is a "principal element" when its replacement value is more than 35 % of the total value of the system of which it is an element. Element value is the price paid for the element by the manufacturer of the system, or by the system integrator. Total value is the normal international selling price to unrelated parties at the point of manufacture or consolidation of shipment.

"Production" (GTN NTN All) means all production phases, such as: construction, production engineering, manufacture, integration, assembly (mounting), inspection, testing, quality assurance.

"Production equipment" (1 7 9) means tooling, templates, jigs, mandrels, moulds, dies, fixtures, alignment mechanisms, test equipment, other machinery and components therefor, limited to those specially designed or modified for "development" or for one or more phases of "production".

"Production facilities" (7 9) means equipment and specially designed software therefor integrated into installations for "development" or for one or more phases of "production".

"Programme" (2 6) means a sequence of instructions to carry out a process in, or convertible into, a form executable by an electronic computer.

"Pulse compression" (6) means the coding and processing of a radar signal pulse of long time duration to one of short time duration, while maintaining the benefits of high pulse energy.

"Pulse duration" (6) is the duration of a "laser" pulse measured at Full Width Half Intensity (FWHI) levels.

"Pulsed laser" (6) means a "laser" having a "pulse duration" that is less than or equal to 0,25 seconds.

"Quantum cryptography" (5) means a family of techniques for the establishment of shared key for "cryptography" by measuring the quantum-mechanical properties of a physical system (including those physical properties explicitly governed by quantum optics, quantum field theory or quantum electrodynamics).

"Q-switched laser" (6) means a "laser" in which the energy is stored in the population inversion or in the optical resonator and subsequently emitted in a pulse.

"Radar frequency agility" (6) means any technique which changes, in a pseudo-random sequence, the carrier frequency of a pulsed radar transmitter between pulses or between groups of pulses by an amount equal to or larger than the pulse bandwidth.

"Radar spread spectrum" (6) means any modulation technique for spreading energy originating from a signal with a relatively narrow frequency band, over a much wider band of frequencies, by using random or pseudo-random coding.

"Real-time bandwidth" (2 3) for "dynamic signal analysers" is the widest frequency range which the analyser can output to display or mass storage without causing any discontinuity in the analysis of the input data. For analysers with more than one channel, the channel configuration yielding the widest "real-time bandwidth" shall be used to make the calculation.

"Real time processing" (6 7) means the processing of data by a computer system providing a required level of service, as a function of available resources, within a guaranteed response time, regardless of the load of the system, when stimulated by an external event.

"Repeatability" (7) means the closeness of agreement among repeated measurements of the same variable under the same operating conditions when changes in conditions or non-operating periods occur between measurements. (Reference: IEEE STD 528-2001 (one sigma standard deviation))

"Required" (GTN 1-9), as applied to "technology", refers to only that portion of "technology" which is peculiarly responsible for achieving or extending the controlled performance levels, characteristics or functions. Such "required" "technology" may be shared by different goods.

"Resolution" (2) means the least increment of a measuring device; on digital instruments, the least significant bit (ref. ANSI B-89.1.12).

"Robot" (2 8) means a manipulation mechanism, which may be of the continuous path or of the point-to-point variety, may use sensors, and has all the following characteristics:

a.

is multifunctional;

b.

is capable of positioning or orienting material, parts, tools or special devices through variable movements in three dimensional space;

c.

incorporates three or more closed or open loop servo-devices which may include stepping motors; and

d.

has "user accessible programmability" by means of teach/playback method or by means of an electronic computer which may be a programmable logic controller, i.e., without mechanical intervention.

N.B.: the above definition does not include the following devices:

1.

manipulation mechanisms which are only manually/teleoperator controllable;

2.

fixed sequence manipulation mechanisms which are automated moving devices, operating according to mechanically fixed programmed motions. The programme is mechanically limited by fixed stops, such as pins or cams. The sequence of motions and the selection of paths or angles are not variable or changeable by mechanical, electronic or electrical means;

3.

mechanically controlled variable sequence manipulation mechanisms which are automated moving devices, operating according to mechanically fixed programmed motions. The programme is mechanically limited by fixed, but adjustable stops, such as pins or cams. The sequence of motions and the selection of paths or angles are variable within the fixed programme pattern. Variations or modifications of the programme pattern (e.g., changes of pins or exchanges of cams) in one or more motion axes are accomplished only through mechanical operations;

4.

non-servo-controlled variable sequence manipulation mechanisms which are automated moving devices, operating according to mechanically fixed programmed motions. The programme is variable but the sequence proceeds only by the binary signal from mechanically fixed electrical binary devices or adjustable stops;

5.

stacker cranes defined as Cartesian coordinate manipulator systems manufactured as an integral part of a vertical array of storage bins and designed to access the contents of those bins for storage or retrieval.

"Rotary atomisation" (1) means a process to reduce a stream or pool of molten metal to droplets to a diameter of 500 micrometre or less by centrifugal force.

"Roving" (1) is a bundle (typically 12-120) of approximately parallel "strands".

N.B.: "strand" is a bundle of "monofilaments" (typically over 200) arranged approximately parallel.

"Run-out" (2) (out-of-true running) means radial displacement in one revolution of the main spindle measured in a plane perpendicular to the spindle axis at a point on the external or internal revolving surface to be tested (Reference: ISO 230/1 1986, paragraph 5.61).

"Scale factor" (gyro or accelerometer) (7) means the ratio of change in output to a change in the input intended to be measured. Scale factor is generally evaluated as the slope of the straight line that can be fitted by the method of least squares to input-output data obtained by varying the input cyclically over the input range.

"Settling time" (3) means the time required for the output to come within one-half bit of the final value when switching between any two levels of the converter.

"SHPL" is equivalent to "super high power laser".

"Signal analysers" (3) means apparatus capable of measuring and displaying basic properties of the single-frequency components of multi-frequency signals.

"Signal processing" (3 4 5 6) means the processing of externally derived information-bearing signals by algorithms such as time compression, filtering, extraction, selection, correlation, convolution or transformations between domains (e.g., fast Fourier transform or Walsh transform).

"Software" (GSN All) means a collection of one or more "programmes" or "microprogrammes" fixed in any tangible medium of expression.

N.B.: "microprogramme" means a sequence of elementary instructions, maintained in a special storage, the execution of which is initiated by the introduction of its reference instruction into an instruction register.

"Source code" (or source language) (4 6 7 9) is a convenient expression of one or more processes which may be turned by a programming system into equipment executable form ("object code" (or object language)).

"Spacecraft" (7 9) means active and passive satellites and space probes.

"Space qualified" (3 6) refers to products designed, manufactured and tested to meet the special electrical, mechanical or environmental requirements for use in the launch and deployment of satellites or high altitude flight systems operating at altitudes of 100 km or higher.

"Special fissile material" (0) means plutonium-239, uranium-233, "uranium enriched in the isotopes 235 or 233", and any material containing the foregoing.

"Specific modulus" (0 1 9) is Young's modulus in pascals, equivalent to N/m2 divided by specific weight in N/m3, measured at a temperature of (296 ± 2) K ((23 ± 2) °C) and a relative humidity of (50 ± 5) %.

"Specific tensile strength" (0 1 9) is ultimate tensile strength in pascals, equivalent to N/m2 divided by specific weight in N/m3, measured at a temperature of (296 ± 2) K ((23 ± 2) °C) and a relative humidity of (50 ± 5) %.

"Splat Quenching" (1) means a process to "solidify rapidly" a molten metal stream impinging upon a chilled block, forming a flake-like product.

N.B.: "solidify rapidly" solidification of molten material at cooling rates exceeding 1 000 K/s.

"Spread spectrum" (5) means the technique whereby energy in a relatively narrow-band communication channel is spread over a much wider energy spectrum.

"Spread spectrum" radar (6) — see "Radar spread spectrum"

"Stability" (7) means the standard deviation (1 sigma) of the variation of a particular parameter from its calibrated value measured under stable temperature conditions. This can be expressed as a function of time.

"States (not) Party to the Chemical Weapon Convention" (1) are those states for which the Convention on the Prohibition of the Development, Production, Stockpiling and Use of Chemical Weapons has (not) entered into force. (See www.opcw.org)

"Substrate" (3) means a sheet of base material with or without an interconnection pattern and on which or within which "discrete components" or integrated circuits or both can be located.

N.B. 1: "discrete component": a separately packaged "circuit element" with its own external connections.

N.B. 2: "circuit element": a single active or passive functional part of an electronic circuit, such as one diode, one transistor, one resistor, one capacitor, etc.

"Substrate blanks" (6) means monolithic compounds with dimensions suitable for the production of optical elements such as mirrors or optical windows.

"Sub-unit of toxin" (1) is a structurally and functionally discrete component of a whole "toxin".

"Superalloys" (2 9) means nickel-, cobalt- or iron-base alloys having strengths superior to any alloys in the AISI 300 series at temperatures over 922 K (649 °C) under severe environmental and operating conditions.

"Superconductive" (1 3 6 8) means materials, i.e., metals, alloys or compounds, which can lose all electrical resistance, i.e., which can attain infinite electrical conductivity and carry very large electrical currents without Joule heating.

N.B.: the "superconductive" state of a material is individually characterised by a "critical temperature", a critical magnetic field, which is a function of temperature, and a critical current density which is, however, a function of both magnetic field and temperature.

"Super High Power Laser" ("SHPL") (6) means a "laser" capable of delivering (the total or any portion of) the output energy exceeding 1 kJ within 50 ms or having an average or CW power exceeding 20 kW.

"Superplastic forming" (1 2) means a deformation process using heat for metals that are normally characterised by low values of elongation (less than 20 %) at the breaking point as determined at room temperature by conventional tensile strength testing, in order to achieve elongations during processing which are at least 2 times those values.

"Symmetric algorithm" (5) means a cryptographic algorithm using an identical key for both encryption and decryption.

N.B.: a common use of "symmetric algorithms" is confidentiality of data.

"System tracks" (6) means processed, correlated (fusion of radar target data to flight plan position) and updated aircraft flight position report available to the Air Traffic Control centre controllers.

"Systolic array computer" (4) means a computer where the flow and modification of the data is dynamically controllable at the logic gate level by the user.

"Tape" (1) is a material constructed of interlaced or unidirectional "monofilaments", "strands", "rovings", "tows", or "yarns", etc., usually preimpregnated with resin.

N.B.: "strand" is a bundle of "monofilaments" (typically over 200) arranged approximately parallel.

"Technology" (GTN NTN All) means specific information necessary for the "development", "production" or "use" of goods. This information takes the form of "technical data" or "technical assistance".

N.B. 1: "technical assistance" may take forms such as instructions, skills, training, working knowledge and consulting services and may involve the transfer of "technical data".

N.B. 2: "Technical data" may take forms such as blueprints, plans, diagrams, models, formulae, tables, engineering designs and specifications, manuals and instructions written or recorded on other media or devices such as disk, tape, read-only memories.

"Tilting spindle" (2) means a tool-holding spindle which alters, during the machining process, the angular position of its centre line with respect to any other axis.

"Time constant" (6) is the time taken from the application of a light stimulus for the current increment to reach a value of 1-1/e times the final value (i.e. 63 % of the final value).

"Total control of flight" (7) means an automated control of "aircraft" state variables and flight path to meet mission objectives responding to real time changes in data regarding objectives, hazards or other "aircraft".

"Total digital transfer rate" (5) means the number of bits, including line coding, overhead and so forth per unit time passing between corresponding equipment in a digital transmission system.

N.B.: See also "digital transfer rate".

"Tow" (1) is a bundle of "monofilaments", usually approximately parallel.

"Toxins" (1 2) means toxins in the form of deliberately isolated preparations or mixtures, no matter how produced, other than toxins present as contaminants of other materials such as pathological specimens, crops, foodstuffs or seed stocks of "microorganisms".

"Transfer laser" (6) means a "laser" in which the lasing species is excited through the transfer of energy by collision of a non-lasing atom or molecule with a lasing atom or molecule species.

"Tunable" (6) means the ability of a "laser" to produce a continuous output at all wavelengths over a range of several "laser" transitions. A line selectable "laser" produces discrete wavelengths within one "laser" transition and is not considered "tunable".

"Unmanned Aerial Vehicle" ("UAV") (9) means any aircraft capable of initiating flight and sustaining controlled flight and navigation without any human presence on board.

"Uranium enriched in the isotopes 235 or 233" (0) means uranium containing the isotopes 235 or 233, or both, in an amount such that the abundance ratio of the sum of these isotopes to the isotope 238 is more than the ratio of the isotope 235 to the isotope 238 occurring in nature (isotopic ratio 0,71 per cent).

"Use" (GTN NTN All) means operation, installation (including on-site installation), maintenance (checking), repair, overhaul and refurbishing.

"User accessible programmability" (6) means the facility allowing a user to insert, modify or replace "programmes" by means other than:

a.

a physical change in wiring or interconnections; or

b.

the setting of function controls including entry of parameters.

"Vaccine" (1) is a medicinal product in a pharmaceutical formulation licensed by, or having marketing or clinical trial authorisation from, the regulatory authorities of either the country of manufacture or of use, which is intended to stimulate a protective immunological response in humans or animals in order to prevent disease in those to whom or to which it is administered.

"Vacuum Atomisation" (1) means a process to reduce a molten stream of metal to droplets of a diameter of 500 micrometre or less by the rapid evolution of a dissolved gas upon exposure to a vacuum.

"Variable geometry airfoils" (7) means the use of trailing edge flaps or tabs, or leading edge slats or pivoted nose droop, the position of which can be controlled in flight.

"Yarn" (1) is a bundle of twisted "strands".

N.B.: "strand" is a bundle of "monofilaments" (typically over 200) arranged approximately parallel.

ACRONYMS AND ABBREVIATIONS USED IN THIS ANNEX

An acronym or abbreviation, when used as a defined term, will be found in "Definitions of Terms used in this Annex".

Acronym or abbreviation

Meaning

ABEC

Annular Bearing Engineers Committee

AGMA

American Gear Manufacturers' Association

AHRS

attitude and heading reference systems

AISI

American Iron and Steel Institute

ALU

arithmetic logic unit

ANSI

American National Standards Institute

ASTM

the American Society for Testing and Materials

ATC

air traffic control

AVLIS

atomic vapour laser isotope separation

CAD

computer-aided-design

CAS

Chemical Abstracts Service

CCITT

International Telegraph and Telephone Consultative Committee

CDU

control and display unit

CEP

circular error probable

CNTD

controlled nucleation thermal deposition

CRISLA

chemical reaction by isotope selective laser activation

CVD

chemical vapour deposition

CW

chemical warfare

CW (for lasers)

continuous wave

DME

distance measuring equipment

DS

directionally solidified

EB-PVD

electron beam physical vapour deposition

EBU

European Broadcasting Union

ECM

electro-chemical machining

ECR

electron cyclotron resonance

EDM

electrical discharge machines

EEPROMS

electrically erasable programmable read only memory

EIA

Electronic Industries Association

EMC

electromagnetic compatibility

ETSI

European Telecommunications Standards Institute

FFT

Fast Fourier Transform

GLONASS

global navigation satellite system

GPS

global positioning system

HBT

hetero-bipolar transistors

HDDR

high density digital recording

HEMT

high electron mobility transistors

ICAO

International Civil Aviation Organisation

IEC

International Electro-technical Commission

IEEE

Institute of Electrical and Electronic Engineers

IFOV

instantaneous-field-of-view

ILS

instrument landing system

IRIG

inter-range instrumentation group

ISAR

inverse synthetic aperture radar

ISO

International for Standardization

ITU

International Telecommunication Union

JIS

Japanese Industrial Standard

JT

Joule-Thomson

LIDAR

light detection and ranging

LRU

line replaceable unit

MAC

message authentication code

Mach

ratio of speed of an object to speed of sound (after Ernst Mach)

MLIS

molecular laser isotopic separation

MLS

microwave landing systems

MOCVD

metal organic chemical vapour deposition

MRI

magnetic resonance imaging

MTBF

mean-time-between-failures

Mtops

million theoretical operations per second

MTTF

mean-time-to-failure

NBC

Nuclear, Biological and Chemical

NDT

non-destructive test

PAR

precision approach radar

PIN

personal identification number

ppm

parts per million

PSD

power spectral density

QAM

quadrature-amplitude-modulation

RF

radio frequency

SACMA

Suppliers of Advanced Composite Materials Association

SAR

synthetic aperture radar

SC

single crystal

SLAR

sidelooking airborne radar

SMPTE

Society of Motion Picture and Television Engineers

SRA

shop replaceable assembly

SRAM

static random access memory

SRM

SACMA Recommended Methods

SSB

single sideband

SSR

secondary surveillance radar

TCSEC

trusted computer system evaluation criteria

TIR

total indicated reading

UV

ultraviolet

UTS

ultimate tensile strength

VOR

very high frequency omni-directional range

YAG

yttrium/aluminium garnet

CATEGORY 0

NUCLEAR MATERIALS, FACILITIES, AND EQUIPMENT

0A
Systems, Equipment and Components

0A001
"Nuclear reactors" and specially designed or prepared equipment and components therefor, as follows:

a.

"nuclear reactors" capable of operation so as to maintain a controlled self-sustaining fission chain reaction;

b.

metal vessels, or major shop-fabricated parts therefor, specially designed or prepared to contain the core of a "nuclear reactor", including the reactor vessel head for a reactor pressure vessel;

c.

manipulative equipment specially designed or prepared for inserting or removing fuel in a "nuclear reactor";

d.

control rods specially designed or prepared for the control of the fission process in a "nuclear reactor", support or suspension structures therefor, rod drive mechanisms and rod guide tubes;

e.

pressure tubes specially designed or prepared to contain fuel elements and the primary coolant in a "nuclear reactor" at an operating pressure in excess of 5,1 MPa;

f.

zirconium metal and alloys in the form of tubes or assemblies of tubes in which the ratio of hafnium to zirconium is less than 1:500 parts by weight, specially designed or prepared for use in a "nuclear reactor";

g.

coolant pumps specially designed or prepared for circulating the primary coolant of "nuclear reactors";

h.

’nuclear reactor internals’ specially designed or prepared for use in a "nuclear reactor", including support columns for the core, fuel channels, thermal shields, baffles, core grid plates, and diffuser plates;

Note: in 0A001.h. ’nuclear reactor internals’ means any major structure within a reactor vessel which has one or more functions such as supporting the core, maintaining fuel alignment, directing primary coolant flow, providing radiation shields for the reactor vessel, and guiding in-core instrumentation.

i.

heat exchangers (steam generators) specially designed or prepared for use in the primary coolant circuit of a "nuclear reactor";

j.

neutron detection and measuring instruments specially designed or prepared for determining neutron flux levels within the core of a "nuclear reactor".

0B
Test, Inspection and Production Equipment

0B001
Plant for the separation of isotopes of "natural uranium", "depleted uranium" and "special fissile materials", and specially designed or prepared equipment and components therefor, as follows:

a.

plant specially designed for separating isotopes of "natural uranium", "depleted uranium", and "special fissile materials", as follows:

1.

gas centrifuge separation plant;

2.

gaseous diffusion separation plant;

3.

aerodynamic separation plant;

4.

chemical exchange separation plant;

5.

ion-exchange separation plant;

6.

atomic vapour "laser" isotope separation (AVLIS) plant;

7.

molecular "laser" isotope separation (MLIS) plant;

8.

plasma separation plant;

9.

electro magnetic separation plant;

b.

gas centrifuges and assemblies and components, specially designed or prepared for gas centrifuge separation process, as follows:

Note: in 0B001.b. ’high strength-to-density ratio material’ means any of the following:

a.

maraging steel capable of an ultimate tensile strength of 2 050 MPa or more;

b.

aluminium alloys capable of an ultimate tensile strength of 460 MPa or more; or

c.

"fibrous or filamentary materials" with a "specific modulus" of more than 3,18 × 106 m and a "specific tensile strength" greater than 76,2 × 103 m;

1.

gas centrifuges;

2.

complete rotor assemblies;

3.

rotor tube cylinders with a wall thickness of 12 mm or less, a diameter of between 75 mm and 400 mm, made from ’high strength-to-density ratio materials’;

4.

rings or bellows with a wall thickness of 3 mm or less and a diameter of between 75 mm and 400 mm and designed to give local support to a rotor tube or to join a number together, made from ’high strength-to-density ratio materials’;

5.

baffles of between 75 mm and 400 mm diameter for mounting inside a rotor tube, made from ’high strength-to-density ratio materials’;

6.

top or bottom caps of between 75 mm and 400 mm diameter to fit the ends of a rotor tube, made from ’high strength-to-density ratio materials’;

7.

magnetic suspension bearings consisting of an annular magnet suspended within a housing made of or protected by "materials resistant to corrosion by UF6" containing a damping medium and having the magnet coupling with a pole piece or second magnet fitted to the top cap of the rotor;

8.

specially prepared bearings comprising a pivot-cup assembly mounted on a damper;

9.

molecular pumps comprised of cylinders having internally machined or extruded helical grooves and internally machined bores;

10.

ring-shaped motor stators for multiphase AC hysteresis (or reluctance) motors for synchronous operation within a vacuum in the frequency range of 600 to 2 000 Hz and a power range of 50 to 1 000 Volt-Amps;

11.

centrifuge housing/recipients to contain the rotor tube assembly of a gas centrifuge, consisting of a rigid cylinder of wall thickness up to 30 mm with precision machined ends and made of or protected by "materials resistant to corrosion by UF6";

12.

scoops consisting of tubes of up to 12 mm internal diameter for the extraction of UF6 gas from within a centrifuge rotor tube by a Pitot tube action, made of or protected by "materials resistant to corrosion by UF6";

13.

frequency changers (converters or inverters) specially designed or prepared to supply motor stators for gas centrifuge enrichment, having all of the following characteristics, and specially designed components therefor:

a.

multiphase output of 600 to 2 000 Hz;

b.

frequency control better than 0,1 %;

c.

harmonic distortion of less than 2 %; and

d.

sn efficiency greater than 80 %;

14.

bellows valves made of or protected by "materials resistant to corrosion by UF6", with a diameter of 10 mm to 160 mm;

c.

Equipment and components, specially designed or prepared for gaseous diffusion separation process, as follows:

1.

gaseous diffusion barriers made of porous metallic, polymer or ceramic "materials resistant to corrosion by UF6" with a pore size of 10 to 100 nm, a thickness of 5 mm or less, and, for tubular forms, a diameter of 25 mm or less;

2.

gaseous diffuser housings made of or protected by "materials resistant to corrosion by UF6";

3.

compressors (positive displacement, centrifugal and axial flow types) or gas blowers with a suction volume capacity of 1 m3/min or more of UF6, and discharge pressure up to 666,7 kPa, made of or protected by "materials resistant to corrosion by UF6";

4.

rotary shaft seals for compressors or blowers specified in 0B001.c.3. and designed for a buffer gas in-leakage rate of less than 1 000 cm3/min.;

5.

heat exchangers made of aluminium, copper, nickel, or alloys containing more than 60 per cent nickel, or combinations of these metals as clad tubes, designed to operate at sub-atmospheric pressure with a leak rate that limits the pressure rise to less than 10 Pa per hour under a pressure differential of 100 kPa;

6.

bellow valves made of or protected by "materials resistant to corrosion by UF", with a diameter of 40 mm to 1 500 mm;

d.

Equipment and components, specially designed or prepared for aerodynamic separation process, as follows:

1.

separation nozzles consisting of slit-shaped, curved channels having a radius of curvature less than 1 mm, resistant to corrosion by UF6, and having a knife-edge contained within the nozzle which separates the gas flowing through the nozzle into two streams;

2.

tangential inlet flow-driven cylindrical or conical tubes, (vortex tubes), made of or protected by "materials resistant to corrosion by UF6" with a diameter of between 0,5 cm and 4 cm and a length to diameter ratio of 20:1 or less and with one or more tangential inlets;

3.

compressors (positive displacement, centrifugal and axial flow types) or gas blowers with a suction volume capacity of 2 m3/min or more, made of or protected by "materials resistant to corrosion by UF6", and rotary shaft seals therefor;

4.

heat exchangers made of or protected by "materials resistant to corrosion by UF6";

5.

aerodynamic separation element housings, made of or protected by "materials resistant to corrosion by UF6" to contain vortex tubes or separation nozzles;

6.

bellows valves made of or protected by "materials resistant to corrosion by UF6", with a diameter of 40 mm to 1 500 mm;

7.

process systems for separating UF6 from carrier gas (hydrogen or helium) to 1 ppm UF6 content or less, including:

a.

cryogenic heat exchangers and cryoseparators capable of temperatures of 153 K (– 120 °C) or less;

b.

cryogenic refrigeration units capable of temperatures of 153 K (– 120 °C) or less;

c.

separation nozzle or vortex tube units for the separation of UF6 from carrier gas;

d.

UF6 cold traps capable of temperatures of 253 K (–20 °C) or less;

e.

equipment and components, specially designed or prepared for chemical exchange separation process, as follows:

1.

fast-exchange liquid-liquid pulse columns with stage residence time of 30 seconds or less and resistant to concentrated hydrochloric acid (e.g. made of or protected by suitable plastic materials such as fluorocarbon polymers or glass);

2.

fast-exchange liquid-liquid centrifugal contactors with stage residence time of 30 seconds or less and resistant to concentrated hydrochloric acid (e.g. made of or protected by suitable plastic materials such as fluorocarbon polymers or glass);

3.

electrochemical reduction cells resistant to concentrated hydrochloric acid solutions, for reduction of uranium from one valence state to another;

4.

electrochemical reduction cells feed equipment to take U+4 from the organic stream and, for those parts in contact with the process stream, made of or protected by suitable materials (e.g. glass, fluorocarbon polymers, polyphenyl sulphate, polyether sulfone and resin-impregnated graphite);

5.

feed preparation systems for producing high purity uranium chloride solution consisting of dissolution, solvent extraction and/or ion exchange equipment for purification and electrolytic cells for reducing the uranium U+6 or U+4 to U+3;

6.

uranium oxidation systems for oxidation of U+3 to U+4;

f.

equipment and components, specially designed or prepared for ion-exchange separation process, as follows:

1.

fast reacting ion-exchange resins, pellicular or porous macro-reticulated resins in which the active chemical exchange groups are limited to a coating on the surface of an inactive porous support structure, and other composite structures in any suitable form, including particles or fibres, with diameters of 0,2 mm or less, resistant to concentrated hydrochloric acid and designed to have an exchange rate half-time of less than 10 seconds and capable of operating at temperatures in the range of 373 K (100 °C) to 473 K (200 °C);

2.

ion exchange columns (cylindrical) with a diameter greater than 1 000 mm, made of or protected by materials resistant to concentrated hydrochloric acid (e.g. titanium or fluorocarbon plastics) and capable of operating at temperatures in the range of 373 K (100 °C) to 473 K (200 °C) and pressures above 0,7 MPa;

3.

ion exchange reflux systems (chemical or electrochemical oxidation or reduction systems) for regeneration of the chemical reducing or oxidizing agents used in ion exchange enrichment cascades;

g.

equipment and components, specially designed or prepared for atomic vapour "laser" isotope separation process (AVLIS), as follows:

1.

high power strip or scanning electron beam guns with a delivered power of more than 2,5 kW/cm for use in uranium vaporization systems;

2.

liquid uranium metal handling systems for molten uranium or uranium alloys, consisting of crucibles, made of or protected by suitable corrosion and heat resistant materials (e.g. tantalum, yttria-coated graphite, graphite coated with other rare earth oxides or mixtures thereof), and cooling equipment for the crucibles;

N.B.: SEE ALSO 2A225.

3.

product and tails collector systems made of or lined with materials resistant to the heat and corrosion of uranium metal vapour or liquid, such as yttria-coated graphite or tantalum;

4.

separator module housings (cylindrical or rectangular vessels) for containing the uranium metal vapour source, the electron beam gun and the product and tails collectors;

5.

"lasers" or "laser" systems for the separation of uranium isotopes with a spectrum frequency stabiliser for operation over extended periods of time;

N.B.: SEE ALSO 6A005 AND 6A205.

h.

equipment and components, specially designed or prepared for molecular "laser" isotope separation process (MLIS) or chemical reaction by isotope selective laser activation (CRISLA), as follows:

1.

supersonic expansion nozzles for cooling mixtures of UF6 and carrier gas to 150 K (– 123 °C) or less and made from "materials resistant to corrosion by UF6";

2.

uranium pentafluoride (UF5) product collectors consisting of filter, impact, or cyclone-type collectors or combinations thereof, and made of "materials resistant to corrosion by UF5/UF6";

3.

compressors made of or protected by "materials resistant to corrosion by UF6", and rotary shaft seals therefor;

4.

equipment for fluorinating UF5 (solid) to UF6 (gas);

5.

process systems for separating UF6 from carrier gas (e.g. nitrogen or argon) including:

a.

cryogenic heat exchangers and cryoseparators capable of temperatures of 153 K (– 120 °C) or less;

b.

cryogenic refrigeration units capable of temperatures of 153 K (– 120 °C) or less;

c.

UF6 cold traps capable of temperatures of 253 K (–20 °C) or less;

6.

"lasers" or "laser" systems for the separation of uranium isotopes with a spectrum frequency stabiliser for operation over extended periods of time;

N.B.: SEE ALSO 6A005 AND 6A205.

i.

equipment and components, specially designed or prepared for plasma separation process, as follows:

1.

microwave power sources and antennae for producing or accelerating ions, with an output frequency greater than 30 GHz and mean power output greater than 50 kW;

2.

radio frequency ion excitation coils for frequencies of more than 100 kHz and capable of handling more than 40 kW mean power;

3.

uranium plasma generation systems;

4.

liquid metal handling systems for molten uranium or uranium alloys, consisting of crucibles, made of or protected by suitable corrosion and heat resistant materials (e.g. tantalum, yttria-coated graphite, graphite coated with other rare earth oxides or mixtures thereof), and cooling equipment for the crucibles;

N.B.: SEE ALSO 2A225.

5.

product and tails collectors made of or protected by materials resistant to the heat and corrosion of uranium vapour such as yttria-coated graphite or tantalum;

6.

separator module housings (cylindrical) for containing the uranium plasma source, radio-frequency drive coil and the product and tails collectors and made of a suitable non-magnetic material (e.g. stainless steel);

j.

equipment and components, specially designed or prepared for electromagnetic separation process, as follows:

1.

ion sources, single or multiple, consisting of a vapour source, ioniser, and beam accelerator made of suitable non-magnetic materials (e.g. graphite, stainless steel, or copper) and capable of providing a total ion beam current of 50 mA or greater;

2.

ion collector plates for collection of enriched or depleted uranium ion beams, consisting of two or more slits and pockets and made of suitable non-magnetic materials (e.g. graphite or stainless steel);

3.

vacuum housings for uranium electromagnetic separators made of non-magnetic materials (e.g. stainless steel) and designed to operate at pressures of 0,1 Pa or lower;

4.

magnet pole pieces with a diameter greater than 2 m;

5.

high voltage power supplies for ion sources, having all of the following characteristics:

a.

capable of continuous operation;

b.

output voltage of 20 000 V or greater;

c.

output current of 1 A or greater; and

d.

voltage regulation of better than 0,01 % over a period of 8 hours;

N.B.: SEE ALSO 3A227.

6.

magnet power supplies (high power, direct current) having all of the following characteristics:

a.

capable of continuous operation with a current output of 500 A or greater at a voltage of 100 V or greater; and

b.

current or voltage regulation better than 0,01 % over a period of 8 hours.

N.B.: SEE ALSO 3A226.

0B002
Specially designed or prepared auxiliary systems, equipment and components, as follows, for isotope separation plant specified in 0B001, made of or protected by "materials resistant to corrosion by UF6 ":

a.

feed autoclaves, ovens or systems used for passing UF6 to the enrichment process;

b.

desublimers or cold traps, used to remove UF6 from the enrichment process for subsequent transfer upon heating;

c.

product and tails stations for transferring UF6 into containers;

d.

liquefaction or solidification stations used to remove UF6 from the enrichment process by compressing, cooling and converting UF6 to a liquid or solid form;

e.

piping systems and header systems specially designed for handling UF6 within gaseous diffusion, centrifuge or aerodynamic cascades;

f.

1.

Vacuum manifolds or vacuum headers having a suction capacity of 5 m3/minute or more; or

2.

Vacuum pumps specially designed for use in UF6 bearing atmospheres;

g.

UF6 mass spectrometers/ion sources specially designed or prepared for taking on-line samples of feed, product or tails from UF6 gas streams and having all of the following characteristics:

1.

unit resolution for mass of more than 320 amu;

2.

ion sources constructed of or lined with nichrome or monel, or nickel plated;

3.

electron bombardment ionisation sources; and

4.

collector system suitable for isotopic analysis.

0B003
Plant for the conversion of uranium and equipment specially designed or prepared therefor, as follows:

a.

systems for the conversion of uranium ore concentrates to UO3;

b.

systems for the conversion of UO3 to UF6;

c.

systems for the conversion of UO3 to UO2;

d.

systems for the conversion of UO2 to UF4;

e.

systems for the conversion of UF4 to UF6;

f.

systems for the conversion of UF4 to uranium metal;

g.

systems for the conversion of UF6 to UO2;

h.

systems for the conversion of UF6 to UF4;

i.

systems for the conversion of UO2 to UCl4.

0B004
Plant for the production or concentration of heavy water, deuterium and deuterium compounds and specially designed or prepared equipment and components therefor, as follows:

a.

plant for the production of heavy water, deuterium or deuterium compounds, as follows:

1.

water-hydrogen sulphide exchange plants;

2.

ammonia-hydrogen exchange plants;

b.

Equipment and components, as follows:

1.

water-hydrogen sulphide exchange towers fabricated from fine carbon steel (e.g. ASTM A516) with diameters of 6 m to 9 m, capable of operating at pressures greater than or equal to 2 MPa and with a corrosion allowance of 6 mm or greater;

2.

single stage, low head (i.e. 0,2 MPa) centrifugal blowers or compressors for hydrogen sulphide gas circulation (i.e. gas containing more than 70 % H2S) with a throughput capacity greater than or equal to 56 m3/second when operating at pressures greater than or equal to 1,8 MPa suction and having seals designed for wet H2S service;

3.

ammonia-hydrogen exchange towers greater than or equal to 35 m in height with diameters of 1,5 m to 2,5 m capable of operating at pressures greater than 15 MPa;

4.

tower internals, including stage contactors, and stage pumps, including those which are submersible, for heavy water production utilising the ammonia-hydrogen exchange process;

5.

ammonia crackers with operating pressures greater than or equal to 3 MPa for heavy water production utilizing the ammonia-hydrogen exchange process;

6.

infrared absorption analysers capable of on-line hydrogen/deuterium ratio analysis where deuterium concentrations are equal to or greater than 90 %;

7.

catalytic burners for the conversion of enriched deuterium gas into heavy water utilising the ammonia-hydrogen exchange process;

8.

complete heavy water upgrade systems, or columns therefor, for the upgrade of heavy water to reactor-grade deuterium concentration.

0B005
Plant specially designed for the fabrication of "nuclear reactor" fuel elements and specially designed or prepared equipment therefor.

Note: a plant for the fabrication of "nuclear reactor" fuel elements includes equipment which:

a.

normally comes into direct contact with or directly processes or controls the production flow of nuclear materials;

b.

seals the nuclear materials within the cladding;

c.

checks the integrity of the cladding or the seal; or

d.

checks the finish treatment of the sealed fuel.

0B006
Plant for the reprocessing of irradiated "nuclear reactor" fuel elements, and specially designed or prepared equipment and components therefor.

Note: 0B006 includes:

a.

plant for the reprocessing of irradiated "nuclear reactor" fuel elements including equipment and components which normally come into direct contact with and directly control the irradiated fuel and the major nuclear material and fission product processing streams;

b.

fuel element chopping or shredding machines, i.e. remotely operated equipment to cut, chop, shred or shear irradiated "nuclear reactor" fuel assemblies, bundles or rods;

c.

dissolvers, critically safe tanks (e.g. small diameter, annular or slab tanks) specially designed or prepared for the dissolution of irradiated "nuclear reactor" fuel, which are capable of withstanding hot, highly corrosive liquids, and which can be remotely loaded and maintained;

d.

counter-current solvent extractors and ion-exchange processing equipment specially designed or prepared for use in a plant for the reprocessing of irradiated "natural uranium", "depleted uranium" or "special fissile materials";

e.

holding or storage vessels specially designed to be critically safe and resistant to the corrosive effects of nitric acid;

Note: holding or storage vessels may have the following features:

1.

walls or internal structures with a boron equivalent (calculated for all constituent elements as defined in the note to 0C004) of at least two per cent;

2.

a maximum diameter of 175 mm for cylindrical vessels; or

3.

a maximum width of 75 mm for either a slab or annular vessel.

f.

process control instrumentation specially designed or prepared for monitoring or controlling the reprocessing of irradiated "natural uranium", "depleted uranium" or "special fissile materials".

0B007
Plant for the conversion of plutonium and equipment specially designed or prepared therefor, as follows:

a.

systems for the conversion of plutonium nitrate to oxide;

b.

systems for plutonium metal production.

0C
Materials

0C001
"Natural uranium" or "depleted uranium" or thorium in the form of metal, alloy, chemical compound or concentrate and any other material containing one or more of the foregoing;

Note: 0C001 does not control the following:

a.

four grammes or less of "natural uranium" or "depleted uranium" when contained in a sensing component in instruments;

b.

"depleted uranium" specially fabricated for the following civil non-nuclear applications:

1.

shielding;

2.

packaging;

3.

ballasts having a mass not greater than 100 kg;

4.

counter-weights having a mass not greater than 100 kg;

c.

alloys containing less than 5 % thorium;

d.

ceramic products containing thorium, which have been manufactured for non-nuclear use.

0C002
"Special fissile materials"

Note: 0C002 does not control four "effective grammes" or less when contained in a sensing component in instruments.

0C003
Deuterium, heavy water (deuterium oxide) and other compounds of deuterium, and mixtures and solutions containing deuterium, in which the isotopic ratio of deuterium to hydrogen exceeds 1:5 000.

0C004
Graphite, nuclear grade, having a purity level of less than 5 parts per million ’boron equivalent’ and with a density greater than 1,5 g/cm3.

N.B.: SEE ALSO 1C107.

Note 1: 0C004 does not control the following:

a.

manufactures of graphite having a mass less than 1 kg, other than those specially designed or prepared for use in a nuclear reactor;

b.

graphite powder.

Note 2: in 0C004, ’boron equivalent’ (BE) is defined as the sum of BEz for impurities (excluding BEcarbon since carbon is not considered an impurity) including boron, where:

BEz (ppm) = CF × concentration of element Z in ppm;

where CF is the conversion factor

Formula

and σB and σZ are the thermal neutron capture cross sections (in barns) for naturally occurring boron and element Z respectively; and AB and AZ are the atomic masses of naturally occurring boron and element Z respectively.

0C005
Specially prepared compounds or powders for the manufacture of gaseous diffusion barriers, resistant to corrosion by UF6 (e.g. nickel or alloy containing 60 weight per cent or more nickel, aluminium oxide and fully fluorinated hydrocarbon polymers), having a purity of 99,9 weight per cent or more and a mean particle size of less than 10 micrometres measured by American Society for Testing and Materials (ASTM) B330 standard and a high degree of particle size uniformity.

0D
Software

0D001
"Software" specially designed or modified for the "development", "production" or "use" of goods specified in this Category.

0E
Technology

0E001
"Technology" according to the Nuclear Technology Note for the "development", "production" or "use" of goods specified in this Category.

CATEGORY 1

MATERIALS, CHEMICALS, "MICROORGANISMS" AND "TOXINS"

1A
Systems, Equipment and Components

1A001
Components made from fluorinated compounds, as follows:

a.

seals, gaskets, sealants or fuel bladders specially designed for "aircraft" or aerospace use made from more than 50 % by weight of any of the materials specified in 1C009.b. or 1C009.c.;

b.

piezoelectric polymers and copolymers made from vinylidene fluoride materials specified in 1C009.a.:

1.

in sheet or film form; and

2.

with a thickness exceeding 200 μm;

c.

seals, gaskets, valve seats, bladders or diaphragms made from fluoroelastomers containing at least one vinylether group as a constitutional unit, specially designed for "aircraft", aerospace or ’missile’ use.

Note: in 1A001.c., ’missile’ means complete rocket systems and unmanned aerial vehicle systems.

1A002
"Composite" structures or laminates, having any of the following:

N.B.: SEE ALSO 1A202, 9A010 and 9A110

a.

Consisting of an organic "matrix" and materials specified in 1C010.c., 1C010.d. or 1C010.e.; or

b.

Consisting of a metal or carbon "matrix" and any of the following:

1.

carbon "fibrous or filamentary materials" with:

a.

a "specific modulus" exceeding 10,15 × 106 m; and

b.

a "specific tensile strength" exceeding 17,7 × 104 m; or

2.

materials specified in 1C010.c.

Note 1: 1A002 does not control composite structures or laminates made from epoxy resin impregnated carbon "fibrous or filamentary materials" for the repair of "civil aircraft" structures or laminates, provided the size does not exceed 100 cm × 100 cm.

Note 2: 1A002 does not control finished or semi-finished items specially designed for purely civilian applications as follows:

a.

sporting goods;

b.

automotive industry;

c.

machine tool industry;

d.

medical applications.

1A003
Manufactures of non-fluorinated polymeric substances specified in 1C008.a.3. in film, sheet, tape or ribbon form with either of the following characteristics:

a.

with a thickness exceeding 0,254 mm; or

b.

coated or laminated with carbon, graphite, metals or magnetic substances.

Note: 1A003 does not control manufactures when coated or laminated with copper and designed for the production of electronic printed circuit boards.

1A004
Protective and detection equipment and components, other than those specified in military goods controls, as follows:

N.B.: SEE ALSO 2B351 AND 2B352.

a.

gas masks, filter canisters and decontamination equipment therefor designed or modified for defence against biological agents or radioactive materials "adapted for use in war" or chemical warfare (CW) agents and specially designed components therefor;

b.

protective suits, gloves and shoes specially designed or modified for defence against biological agents or radioactive materials "adapted for use in war" or chemical warfare (CW) agents;

c.

nuclear, biological and chemical (NBC) detection systems specially designed or modified for detection or identification of biological agents or radioactive materials "adapted for use in war" or chemical warfare (CW) agents and specially designed components therefor.

Note: 1A004 does not control:

a.

personal radiation monitoring dosimeters;

b.

equipment limited by design or function to protect against hazards specific to civil industries, such as mining, quarrying, agriculture, pharmaceuticals, medical, veterinary, environmental, waste management, or to the food industry.

1A005
Body armour, and specially designed components therefor, other than those manufactured to military standards or specifications or to their equivalents in performance.

N.B.: SEE ALSO MILITARY GOODS CONTROLS.

N.B.: for "fibrous or filamentary materials" used in the manufacture of body armour, see 1C010.

Note 1: 1A005 does not control body armour or protective garments when accompanying their user for the user's own personal protection.

Note 2: 1A005 does not control body armour designed to provide frontal protection only from both fragment and blast from non-military explosive devices.

1A102
Resaturated pyrolized carbon-carbon components designed for space launch vehicles specified in 9A004 or sounding rockets specified in 9A104.

1A202
Composite structures, other than those specified in 1A002, in the form of tubes and having both of the following characteristics:

N.B.: SEE ALSO 9A010 AND 9A110.

a.

an inside diameter of between 75 mm and 400 mm; and

b.

made with any of the "fibrous or filamentary materials" specified in 1C010.a. or b. or 1C210.a. or with carbon prepreg materials specified in 1C210.c.

1A225
Platinized catalysts specially designed or prepared for promoting the hydrogen isotope exchange reaction between hydrogen and water for the recovery of tritium from heavy water or for the production of heavy water.

1A226
Specialised packings which may be used in separating heavy water from ordinary water, having both of the following characteristics:

a.

made of phosphor bronze mesh chemically treated to improve wettability; and

b.

designed to be used in vacuum distillation towers.

1A227
High-density (lead glass or other) radiation shielding windows, having all of the following characteristics, and specially designed frames therefor:

a.

a ’cold area’ greater than 0,09 m2;

b.

a density greater than 3 g/cm3; and

c.

a thickness of 100 mm or greater.

Technical note:

In 1A227 the term ’cold area’ means the viewing area of the window exposed to the lowest level of radiation in the design application.

1B
Test, Inspection and Production Equipment

1B001
Equipment for the production of fibres, prepregs, preforms or "composites" specified in 1A002 or 1C010, as follows, and specially designed components and accessories therefor:

N.B.: SEE ALSO 1B101 AND 1B201.

a.

filament winding machines of which the motions for positioning, wrapping and winding fibres are coordinated and programmed in three or more axes, specially designed for the manufacture of "composite" structures or laminates from "fibrous or filamentary materials";

b.

tape-laying or tow-placement machines of which the motions for positioning and laying tape, tows or sheets are coordinated and programmed in two or more axes, specially designed for the manufacture of ’composite’ airframe or "missile" structures;

Note: in 1B001.b., ’missile’ means complete rocket systems and unmanned aerial vehicle systems.

c.

multidirectional, multidimensional weaving machines or interlacing machines, including adapters and modification kits, for weaving, interlacing or braiding fibres to manufacture "composite" structures;

Technical note:

For the purposes of 1B001.c. the technique of interlacing includes knitting.

Note: 1B001.c. does not control textile machinery not modified for the above end-uses.

d.

equipment specially designed or adapted for the production of reinforcement fibres, as follows:

1.

equipment for converting polymeric fibres (such as polyacrylonitrile, rayon, pitch or polycarbosilane) into carbon fibres or silicon carbide fibres, including special equipment to strain the fibre during heating;

2.

equipment for the chemical vapour deposition of elements or compounds on heated filamentary substrates to manufacture silicon carbide fibres;

3.

equipment for the wet-spinning of refractory ceramics (such as aluminium oxide);

4.

equipment for converting aluminium containing precursor fibres into alumina fibres by heat treatment;

e.

equipment for producing prepregs specified in 1C010.e. by the hot melt method;

f.

non-destructive inspection equipment specially designed for "composite" materials, as follows:

1.

x-ray tomography systems for three dimensional defect inspection;

2.

numerically controlled ultrasonic testing machines of which the motions for positioning transmitters and/or receivers are simultaneously coordinated and programmed in four or more axes to follow the three dimensional contours of the component under inspection.

1B002
Equipment for producing metal alloys, metal alloy powder or alloyed materials, specially designed to avoid contamination and specially designed for use in one of the processes specified in 1C002.c.2.

N.B.: SEE ALSO 1B102.

1B003
Tools, dies, moulds or fixtures, for "superplastic forming" or "diffusion bonding" titanium or aluminium or their alloys, specially designed for the manufacture of:

a.

airframe or aerospace structures;

b.

"aircraft" or aerospace engines; or

c.

specially designed components for those structures or engines.

1B101
Equipment, other than that specified in 1B001, for the "production" of structural composites as follows; and specially designed components and accessories therefor:

N.B.: SEE ALSO 1B201.

Note: components and accessories specified in 1B101 include moulds, mandrels, dies, fixtures and tooling for the preform pressing, curing, casting, sintering or bonding of composite structures, laminates and manufactures thereof.

a.

filament winding machines of which the motions for positioning, wrapping and winding fibres can be coordinated and programmed in three or more axes, designed to fabricate composite structures or laminates from fibrous or filamentary materials, and coordinating and programming controls;

b.

tape-laying machines of which the motions for positioning and laying tape and sheets can be coordinated and programmed in two or more axes, designed for the manufacture of composite airframe and "missile" structures;

c.

equipment designed or modified for the "production" of "fibrous or filamentary materials" as follows:

1.

equipment for converting polymeric fibres (such as polyacrylonitrile, rayon or polycarbosilane) including special provision to strain the fibre during heating;

2.

equipment for the vapour deposition of elements or compounds on heated filament substrates;

3.

equipment for the wet-spinning of refractory ceramics (such as aluminium oxide);

d.

equipment designed or modified for special fibre surface treatment or for producing prepregs and preforms specified in entry 9C110.

Note: 1B101.d. includes rollers, tension stretchers, coating equipment, cutting equipment and clicker dies.

1B102
Metal powder "production equipment", other than that specified in 1B002, and components as follows:

N.B.: SEE ALSO 1B115.b.

a.

metal powder "production equipment" usable for the "production", in a controlled environment, of spherical or atomised materials specified in 1C011.a., 1C011.b., 1C111.a.1., 1C111.a.2. or in the Military Goods Controls.

b.

specially designed components for "production equipment" specified in 1B002 or 1B102.a.

Note: 1B102 includes:

a.

plasma generators (high frequency arc-jet) usable for obtaining sputtered or spherical metallic powders with organisation of the process in an argon-water environment;

b.

electroburst equipment usable for obtaining sputtered or spherical metallic powders with organisation of the process in an argon-water environment;

c.

equipment usable for the "production" of spherical aluminium powders by powdering a melt in an inert medium (e.g. nitrogen).

1B115
Equipment, other than that specified in 1B002 or 1B102, for the production of propellant and propellant constituents, as follows, and specially designed components therefor:

a.

"production equipment" for the "production", handling or acceptance testing of liquid propellants or propellant constituents specified in 1C011.a., 1C011.b., 1C111 or in the Military Goods Controls;

b.

"production equipment" for the "production", handling, mixing, curing, casting, pressing, machining, extruding or acceptance testing of solid propellants or propellant constituents specified in 1C011.a., 1C011.b., 1C111 or in the Military Goods Controls.

Note: 1B115.b. does not control batch mixers, continuous mixers or fluid energy mills. For the control of batch mixers, continuous mixers and fluid energy mills see 1B117, 1B118 and 1B119.

Note 1: for equipment specially designed for the production of military goods, see the Military Goods Controls.

Note 2: 1B115 does not control equipment for the "production", handling and acceptance testing of boron carbide.

1B116
Specially designed nozzles for producing pyrolitically derived materials formed on a mould, mandrel or other substrate from precursor gases which decompose in the 1 573 K (1 300 °C) to 3 173 K (2 900 °C) temperature range at pressures of 130 Pa to 20 kPa.

1B117
Batch mixers with provision for mixing under vacuum in the range of zero to 13,326 kPa and with temperature control capability of the mixing chamber and having all of the following, and specially designed components therefor:

a.

a total volumetric capacity of 110 litres or more; and

b.

at least one mixing/kneading shaft mounted off centre.

1B118
Continuous mixers with provision for mixing under vacuum in the range of zero to 13,326 kPa and with a temperature control capability of the mixing chamber having any of the following, and specially designed components therefor:

a.

two or more mixing/kneading shafts; or

b.

a single rotating shaft which oscillates and having kneading teeth/pins on the shaft as well as inside the casing of the mixing chamber.

1B119
Fluid energy mills usable for grinding or milling substances specified in 1C011.a., 1C011.b., 1C111 or in the Military Goods Controls, and specially designed components therefor.

1B201
Filament winding machines, other than those specified in 1B001 or 1B101, and related equipment, as follows:

a.

filament winding machines having all of the following characteristics:

1.

having motions for positioning, wrapping, and winding fibres coordinated and programmed in two or more axes;

2.

specially designed to fabricate composite structures or laminates from "fibrous or filamentary materials"; and

3.

capable of winding cylindrical rotors of diameter between 75 and 400 mm and lengths of 600 mm or greater;

b.

coordinating and programming controls for the filament winding machines specified in 1B201.a.;

c.

precision mandrels for the filament winding machines specified in 1B201.a.

1B225
Electrolytic cells for fluorine production with an output capacity greater than 250 g of fluorine per hour.

1B226
Electromagnetic isotope separators designed for, or equipped with, single or multiple ion sources capable of providing a total ion beam current of 50 mA or greater.

Note: 1B226 includes separators:

a.

capable of enriching stable isotopes;

b.

with the ion sources and collectors both in the magnetic field and those configurations in which they are external to the field.

1B227
Ammonia synthesis converters or ammonia synthesis units, in which the synthesis gas (nitrogen and hydrogen) is withdrawn from an ammonia/hydrogen high-pressure exchange column and the synthesized ammonia is returned to said column.

1B228
Hydrogen-cryogenic distillation columns having all of the following characteristics:

a.

designed for operation with internal temperatures of 35 K (– 238 °C) or less;

b.

designed for operation at an internal pressure of 0,5 to 5 MPa;

c.

constructed of either:

1.

stainless steel of the 300 series with low sulphur content and with an austenitic ASTM (or equivalent standard) grain size number of 5 or greater; or

2.

equivalent materials which are both cryogenic and H2-compatible; and

d.

with internal diameters of 1 m or greater and effective lengths of 5 m or greater.

1B229
Water-hydrogen sulphide exchange tray columns and ’internal contactors’, as follows:

N.B.: for columns which are specially designed or prepared for the production of heavy water see 0B004.

a.

water-hydrogen sulphide exchange tray columns, having all of the following characteristics:

1.

can operate at pressures of 2 MPa or greater;

2.

constructed of carbon steel having an austenitic ASTM (or equivalent standard) grain size number of 5 or greater; and

3.

with a diameter of 1,8 m or greater;

b.

’internal contactors’ for the water-hydrogen sulphide exchange tray columns specified in 1B229.a.

Technical note:

’Internal contactors’ of the columns are segmented trays which have an effective assembled diameter of 1,8 m or greater, are designed to facilitate countercurrent contacting and are constructed of stainless steels with a carbon content of 0,03 % or less. These may be sieve trays, valve trays, bubble cap trays, or turbogrid trays.

1B230
Pumps capable of circulating solutions of concentrated or dilute potassium amide catalyst in liquid ammonia (KNH2/NH3), having all of the following characteristics:

a.

airtight (i.e., hermetically sealed);

b.

a capacity greater than 8,5 m3/h; and

c.

either of the following characteristics:

1.

for concentrated potassium amide solutions (1 % or greater), an operating pressure of 1,5 to 60 MPa; or

2.

for dilute potassium amide solutions (less than 1 %), an operating pressure of 20 to 60 MPa.

1B231
Tritium facilities or plants, and equipment therefor, as follows:

a.

facilities or plants for the production, recovery, extraction, concentration, or handling of tritium;

b.

equipment for tritium facilities or plants, as follows:

1.

hydrogen or helium refrigeration units capable of cooling to 23 K (– 250 °C) or less, with heat removal capacity greater than 150 W;

2.

hydrogen isotope storage or purification systems using metal hydrides as the storage or purification medium.

1B232
Turboexpanders or turboexpander-compressor sets having both of the following characteristics:

a.

designed for operation with an outlet temperature of 35 K (– 238 °C) or less; and

b.

designed for a throughput of hydrogen gas of 1 000 kg/h or greater.

1B233
Lithium isotope separation facilities or plants, and equipment therefor, as follows:

a.

facilities or plants for the separation of lithium isotopes;

b.

equipment for the separation of lithium isotopes, as follows:

1.

packed liquid-liquid exchange columns specially designed for lithium amalgams;

2.

mercury or lithium amalgam pumps;

3.

lithium amalgam electrolysis cells;

4.

evaporators for concentrated lithium hydroxide solution.

1C
Materials

Technical note:

Metals and alloys:

Unless provision to the contrary is made, the words ’metals’ and ’alloys’ in 1C001 to 1C012 cover crude and semi-fabricated forms, as follows:

crude forms:

anodes, balls, bars (including notched bars and wire bars), billets, blocks, blooms, brickets, cakes, cathodes, crystals, cubes, dice, grains, granules, ingots, lumps, pellets, pigs, powder, rondelles, shot, slabs, slugs, sponge, sticks;

semi-fabricated forms (whether or not coated, plated, drilled or punched):

a.

wrought or worked materials fabricated by rolling, drawing, extruding, forging, impact extruding, pressing, graining, atomising, and grinding, i.e.: angles, channels, circles, discs, dust, flakes, foils and leaf, forging, plate, powder, pressings and stampings, ribbons, rings, rods (including bare welding rods, wire rods, and rolled wire), sections, shapes, sheets, strip, pipe and tubes (including tube rounds, squares, and hollows), drawn or extruded wire;

b.

cast material produced by casting in sand, die, metal, plaster or other types of moulds, including high pressure castings, sintered forms, and forms made by powder metallurgy.

The object of the control should not be defeated by the export of non-listed forms alleged to be finished products but representing in reality crude forms or semi-fabricated forms.

1C001
Materials specially designed for use as absorbers of electromagnetic waves, or intrinsically conductive polymers, as follows:

N.B.: SEE ALSO 1C101.

a.

materials for absorbing frequencies exceeding 2 × 108 Hz but less than 3 × 1012 Hz;

Note 1: 1C001.a. does not control:

a.

hair type absorbers, constructed of natural or synthetic fibres, with non-magnetic loading to provide absorption;

b.

absorbers having no magnetic loss and whose incident surface is non-planar in shape, including pyramids, cones, wedges and convoluted surfaces;

c.

planar absorbers, having all of the following characteristics:

1.

made from any of the following:

a.

plastic foam materials (flexible or non-flexible) with carbon-loading, or organic materials, including binders, providing more than 5 % echo compared with metal over a bandwidth exceeding ±15 % of the centre frequency of the incident energy, and not capable of withstanding temperatures exceeding 450 K (177 °C); or

b.

ceramic materials providing more than 20 % echo compared with metal over a bandwidth exceeding ±15 % of the centre frequency of the incident energy, and not capable of withstanding temperatures exceeding 800 K (527 °C);

Technical note:

Absorption test samples for 1C001.a. Note: 1.c.1. should be a square at least 5 wavelengths of the centre frequency on a side and positioned in the far field of the radiating element.

2.

tensile strength less than 7 × 106 N/m2; and

3.

compressive strength less than 14 × 106 N/m2;

d.

planar absorbers made of sintered ferrite, having:

1.

a specific gravity exceeding 4,4; and

2.

a maximum operating temperature of 548 K (275 °C).

Note 2: nothing in Note 1 to 1C001.a. releases magnetic materials to provide absorption when contained in paint.

b.

materials for absorbing frequencies exceeding 1,5 × 1014 Hz but less than 3,7 × 1014 Hz and not transparent to visible light;

c.

cntrinsically conductive polymeric materials with a ’bulk electrical conductivity’ exceeding 10 000 S/m (Siemens per metre) or a ’sheet (surface) resistivity’ of less than 100 ohms/square, based on any of the following polymers:

1.

polyaniline;

2.

polypyrrole;

3.

polythiophene;

4.

poly phenylene-vinylene; or

5.

poly thienylene-vinylene.

Technical note:

’Bulk electrical conductivity’ and ’sheet (surface) resistivity’ should be determined using ASTM D-257 or national equivalents.

1C002
Metal alloys, metal alloy powder and alloyed materials, as follows:

N.B.: SEE ALSO 1C202.

Note: 1C002 does not control metal alloys, metal alloy powder and alloyed materials for coating substrates.

Technical notes:

1.

The metal alloys in 1C002 are those containing a higher percentage by weight of the stated metal than of any other element.

2.

Stress-rupture life should be measured in accordance with ASTM standard E-139 or national equivalents.

3.

Low cycle fatigue life should be measured in accordance with ASTM Standard E-606 "Recommended Practice for Constant-Amplitude Low-Cycle Fatigue Testing" or national equivalents. Testing should be axial with an average stress ratio equal to 1 and a stress-concentration factor (Kt) equal to 1. The average stress is defined as maximum stress minus minimum stress divided by maximum stress.

a.

aluminides, as follows:

1.

nickel aluminides containing a minimum of 15 weight percent aluminium, a maximum of 38 weight percent aluminium and at least one additional alloying element;

2.

titanium aluminides containing 10 weight percent or more aluminium and at least one additional alloying element;

b.

metal alloys, as follows, made from material specified in 1C002.c.:

1.

nickel alloys with:

a.

a stress-rupture life of 10 000 hours or longer at 923 K (650 °C) at a stress of 676 MPa; or

b.

a low cycle fatigue life of 10 000 cycles or more at 823 K (550 °C) at a maximum stress of 1 095 MPa;

2.

niobium alloys with:

a.

a stress-rupture life of 10 000 hours or longer at 1 073 K (800 °C) at a stress of 400 MPa; or

b.

a low cycle fatigue life of 10 000 cycles or more at 973 K (700 °C) at a maximum stress of 700 MPa;

3.

titanium alloys with:

a.

a stress-rupture life of 10 000 hours or longer at 723 K (450 °C) at a stress of 200 MPa; or

b.

a low cycle fatigue life of 10 000 cycles or more at 723 K (450 °C) at a maximum stress of 400 MPa;

4.

aluminium alloys with a tensile strength of:

a.

240 MPa or more at 473 K (200 °C); or

b.

415 MPa or more at 298 K (25 °C);

5.

Magnesium alloys with:

a.

A tensile strength of 345 MPa or more; and

b.

a corrosion rate of less than 1 mm/year in 3 % sodium chloride aqueous solution measured in accordance with ASTM standard G-31 or national equivalents;

c.

metal alloy powder or particulate material, having all of the following characteristics:

1.

made from any of the following composition systems:

Technical note:

X in the following equals one or more alloying elements.

a.

nickel alloys (Ni-Al-X, Ni-X-Al) qualified for turbine engine parts or components, i.e. with less than 3 non-metallic particles (introduced during the manufacturing process) larger than 100 μm in 109 alloy particles;

b.

niobium alloys (Nb-Al-X or Nb-X-Al, Nb-Si-X or Nb-X-Si, Nb-Ti-X or Nb-X-Ti);

c.

titanium alloys (Ti-Al-X or Ti-X-Al);

d.

aluminium alloys (Al-Mg-X or Al-X-Mg, Al-Zn-X or Al-X-Zn, Al-Fe-X or Al-X-Fe); or

e.

magnesium alloys (Mg-Al-X or Mg-X-Al);

2.

Made in a controlled environment by any of the following processes:

a.

"vacuum atomisation";

b.

"gas atomisation";

c.

"rotary atomisation";

d.

"splat quenching";

e.

"melt spinning" and "comminution";

f.

"melt extraction" and "comminution"; or

g.

"mechanical alloying"; and

3.

capable of forming materials specified in 1C002.a. or 1C002.b.

d.

Alloyed materials having all of the following characteristics:

1.

made from any of the composition systems specified in 1C002.c.1.;

2.

in the form of uncomminuted flakes, ribbons or thin rods; and

3.

produced in a controlled environment by any of the following:

a.

"splat quenching";

b.

"melt spinning"; or

c.

"melt extraction".

1C003
Magnetic metals, of all types and of whatever form, having any of the following characteristics:

a.

initial relative permeability of 120 000 or more and a thickness of 0,05 mm or less;

Technical note:

Measurement of initial permeability must be performed on fully annealed materials.

b.

magnetostrictive alloys, having any of the following characteristics:

1.

a saturation magnetostriction of more than 5 × 10–4; or

2.

a magnetomechanical coupling factor (k) of more than 0,8; or

c.

amorphous or ’nanocrystalline’ alloy strips, having all of the following characteristics:

1.

a composition having a minimum of 75 weight percent of iron, cobalt or nickel;

2.

a saturation magnetic induction (Bs) of 1,6 T or more; and

3.

any of the following:

a.

a strip thickness of 0,02 mm or less; or

b.

an electrical resistivity of 2 × 10–4 ohm cm or more.

Technical note:

"Nanocrystalline" materials in 1C003.c. are those materials having a crystal grain size of 50 nm or less, as determined by X-ray diffraction.

1C004
Uranium titanium alloys or tungsten alloys with a "matrix" based on iron, nickel or copper, having all of the following:

a.

a density exceeding 17,5 g/cm3;

b.

an elastic limit exceeding 880 MPa;

c.

an ultimate tensile strength exceeding 1 270 MPa; and

d.

an elongation exceeding 8 %.

1C005
"Superconductive" "composite" conductors in lengths exceeding 100 m or with a mass exceeding 100 g, as follows:

a.

"Superconductive""composite" conductors containing one or more niobium-titanium filaments, having all of the following:

1.

embedded in a "matrix" other than a copper or copper-based mixed "matrix"; and

2.

having a cross-section area less than 0,28 × 10–4 mm2 (6 μm in diameter for circular filaments);

b.

"superconductive""composite" conductors consisting of one or more "superconductive" filaments other than niobium-titanium, having all of the following:

1.

a "critical temperature" at zero magnetic induction exceeding 9,85 K (– 263,31 °C); and

2.

remaining in the "superconductive" state at a temperature of 4,2 K (– 268,96 °C) when exposed to a magnetic field oriented in any direction perpendicular to the longitudinal axis of conductor and corresponding to a magnetic induction of 12 T with critical current density exceeding 1 750 A/mm2 on overall cross-section of the conductor;

c.

"superconductive""composite" conductors consisting of one or more "superconductive" filaments which remain "superconductive" above 115 K (– 158,16 °C).

Technical note:

For the purpose of 1C005 filaments may be in wire, cylinder, film, tape or ribbon form.

1C006
Fluids and lubricating materials, as follows:

a.

hydraulic fluids containing, as their principal ingredients, any of the following compounds or materials:

1.

synthetic silahydrocarbon oils, having all of the following:

Technical note:

For the purpose of 1C006.a.1., silahydrocarbon oils contain exclusively silicon, hydrogen and carbon.

a.

a flash point exceeding 477 K (204 °C);

b.

a pour point at 239 K (–34 °C) or less;

c.

a viscosity index of 75 or more; and

d.

a thermal stability at 616 K (343 °C); or

2.

Chlorofluorocarbons, having all of the following:

Technical note:

For the purpose of 1C006.a.2., chlorofluorocarbons contain exclusively carbon, fluorine and chlorine.

a.

no flash point;

b.

an autogenous ignition temperature exceeding 977 K (704 °C);

c.

a pour point at 219 K (–54 °C) or less;

d.

a viscosity index of 80 or more; and

e.

a boiling point at 473 K (200 °C) or higher;

b.

lubricating materials containing, as their principal ingredients, any of the following compounds or materials:

1.

phenylene or alkylphenylene ethers or thio-ethers, or their mixtures, containing more than two ether or thio-ether functions or mixtures thereof; or

2.

fluorinated silicone fluids with a kinematic viscosity of less than 5 000 mm2/s (5 000 centistokes) measured at 298 K (25 °C);

c.

damping or flotation fluids with a purity exceeding 99,8 %, containing less than 25 particles of 200 μm or larger in size per 100 ml and made from at least 85 % of any of the following compounds or materials:

1.

dibromotetrafluoroethane;

2.

polychlorotrifluoroethylene (oily and waxy modifications only); or

3.

polybromotrifluoroethylene;

d.

fluorocarbon electronic cooling fluids, having all of the following characteristics:

1.

containing 85 % by weight or more of any of the following, or mixtures thereof:

a.

monomeric forms of perfluoropolyalkylether-triazines or perfluoroaliphatic-ethers;

b.

perfluoroalkylamines;

c.

perfluorocycloalkanes; or

d.

perfluoroalkanes;

2.

density at 298 K (25 °C) of 1,5 g/ml or more;

3.

in a liquid state at 273 K (0 °C); and

4.

containing 60 % or more by weight of fluorine.

Technical note:

For the purpose of 1C006:

a.

clash point is determined using the Cleveland Open Cup Method described in ASTM D-92 or national equivalents;

b.

pour point is determined using the method described in ASTM D-97 or national equivalents;

c.

viscosity index is determined using the method described in ASTM D-2270 or national equivalents;

d.

thermal stability is determined by the following test procedure or national equivalents:

Twenty ml of the fluid under test is placed in a 46 ml type 317 stainless steel chamber containing one each of 12,5 mm (nominal) diameter balls of M-10 tool steel, 52 100 steel and naval bronze (60 % Cu, 39 % Zn, 0,75 % Sn);

The chamber is purged with nitrogen, sealed at atmospheric pressure and the temperature raised to and maintained at 644 ± 6 K (371 ± 6 °C) for six hours;

The specimen will be considered thermally stable if, on completion of the above procedure, all of the following conditions are met:

1.

the loss in weight of each ball is less than 10 mg/mm2 of ball surface;

2.

the change in original viscosity as determined at 311 K (38 °C) is less than 25 %; and

3.

the total acid or base number is less than 0,40;

e.

Autogenous ignition temperature is determined using the method described in ASTM E-659 or national equivalents.

1C007
Ceramic base materials, non-"composite" ceramic materials, ceramic-"matrix" "composite" materials and precursor materials, as follows:

N.B.: SEE ALSO 1C107.

a.

base materials of single or complex borides of titanium having total metallic impurities, excluding intentional additions, of less than 5 000 ppm, an average particle size equal to or less than 5 μm and no more than 10 % of the particles larger than 10 μm;

b.

non-"composite" ceramic materials in crude or semi-fabricated form, composed of borides of titanium with a density of 98 % or more of the theoretical density;

Note: 1C007.b. does not control abrasives.

c.

ceramic-ceramic "composite" materials with a glass or oxide-"matrix" and reinforced with fibres having all of the following:

1.

made from any of the following materials:

a.

Si-N;

b.

Si-C;

c.

Si-Al-O-N; or

d.

Si-O-N; and

2.

having a specific tensile strength exceeding 12,7 × 103m;

d.

ceramic-ceramic "composite" materials, with or without a continuous metallic phase, incorporating particles, whiskers or fibres, where carbides or nitrides of silicon, zirconium or boron form the "matrix";

e.

precursor materials (i.e., special purpose polymeric or metallo-organic materials) for producing any phase or phases of the materials specified in 1C007.c., as follows:

1.

polydiorganosilanes (for producing silicon carbide);

2.

polysilazanes (for producing silicon nitride);

3.

polycarbosilazanes (for producing ceramics with silicon, carbon and nitrogen components);

f.

ceramic-ceramic "composite" materials with an oxide or glass "matrix" reinforced with continuous fibres from any of the following systems:

1.

Al2O3; or

2.

Si-C-N.

Note: 1C007.f. does not control "composites" containing fibres from these systems with a fibre tensile strength of less than 700 MPa at 1 273 K (1 000 °C) or fibre tensile creep resistance of more than 1 % creep strain at 100 MPa load and 1 273 K (1 000 °C) for 100 hours.

1C008
Non-fluorinated polymeric substances, as follows:

a.

1.

bismaleimides;

2.

aromatic polyamide-imides;

3.

aromatic polyimides;

4.

aromatic polyetherimides having a glass transition temperature (Tg) exceeding 513 K (240 °C);

Note 1: 1C008.a. controls the substances in liquid or solid form, including resin, powder, pellet, film, sheet, tape or ribbon;

Note 2: 1C008.a. does not control non-fusible compression moulding powders or moulded forms.

b.

Thermoplastic liquid crystal copolymers having a heat distortion temperature exceeding 523 K (250 °C) measured according to ISO 75-2 (2004), method A or national equivalents, with a load of 1,80 N/mm2 and composed of:

1.

any of the following:

a.

phenylene, biphenylene or naphthalene; or

b.

methyl, tertiary-butyl or phenyl substituted phenylene, biphenylene or naphthalene; and

2.

any of the following acids:

a.

terephthalic acid;

b.

6-hydroxy-2 naphthoic acid; or

c.

4-hydroxybenzoic acid;

c.

not used;

d.

polyarylene ketones;

e.

polyarylene sulphides, where the arylene group is biphenylene, triphenylene or combinations thereof;

f.

polybiphenylenethersulphone having a glass transition temperature (Tg) exceeding 513 K (240 °C).

Technical note:

The glass transition temperature (Tg) for 1C008 materials is determined using the method described in ISO 11357-2 (1999) or national equivalents.

1C009
Unprocessed fluorinated compounds, as follows:

a.

copolymers of vinylidene fluoride having 75 % or more beta crystalline structure without stretching;

b.

fluorinated polyimides containing 10 % by weight or more of combined fluorine;

c.

fluorinated phosphazene elastomers containing 30 % by weight or more of combined fluorine.

1C010
"Fibrous or filamentary materials" which may be used in organic "matrix", metallic "matrix" or carbon "matrix" "composite" structures or laminates, as follows:

N.B.: SEE ALSO 1C210 AND 9C110.

a.

organic "fibrous or filamentary materials", having all of the following:

1.

a "specific modulus" exceeding 12,7 × 106 m; and

2.

a "specific tensile strength" exceeding 23,5 × 104 m;

Note: 1C010.a. does not control polyethylene.

b.

carbon "fibrous or filamentary materials", having all of the following:

1.

a "specific modulus" exceeding 12,7 × 106 m; and

2.

a "specific tensile strength" exceeding 23,5 × 104 m;

Note: 1C010.b. does not control fabric made from "fibrous or filamentary materials" for the repair of "civil aircraft" structures or laminates, in which the size of individual sheets does not exceed 100 cm × 100 cm.

Technical note:

Properties for materials described in 1C010.b. should be determined using SACMA recommended methods SRM 12 to 17, or national equivalent tow tests, such as Japanese Industrial Standard JIS-R-7601, Paragraph 6.6.2., and based on lot average.

c.

Inorganic "fibrous or filamentary materials", having all of the following:

1.

a "specific modulus" exceeding 2,54 × 106 m; and

2.

a melting, softening, decomposition or sublimation point exceeding 1 922 K (1 649 °C) in an inert environment;

Note: 1C010.c. does not control:

1.

discontinuous, multiphase, polycrystalline alumina fibres in chopped fibre or random mat form, containing 3 weight percent or more silica, with a specific modulus of less than 10 × 106m;

2.

molybdenum and molybdenum alloy fibres;

3.

boron fibres;

4.

discontinuous ceramic fibres with a melting, softening, decomposition or sublimation point lower than 2 043 K (1 770 °C) in an inert environment.

d.

"fibrous or filamentary materials":

1.

Composed of any of the following:

a.

polyetherimides specified in 1C008.a.; or

b.

materials specified in 1C008.b. to 1C008.f.; or;

2.

composed of materials specified in 1C010.d.1.a. or 1C010.d.1.b. and "commingled" with other fibres specified in 1C010.a., 1C010.b. or 1C010.c.;

e.

resin-impregnated or pitch-impregnated fibres (prepregs), metal or carbon-coated fibres (preforms) or "carbon fibre preforms", as follows:

1.

made from "fibrous or filamentary materials" specified in 1C010.a., 1C010.b. or 1C010.c.;

2.

made from organic or carbon "fibrous or filamentary materials":

a.

with a "specific tensile strength" exceeding 17,7 × 104 m;

b.

with a "specific modulus" exceeding 10,15 × 106 m;

c.

not controlled by 1C010.a. or 1C010.b.; and

d.

when impregnated with materials specified in 1C008 or 1C009.b., having a glass transition temperature (Tg) exceeding 383 K (110 °C) or with phenolic or epoxy resins, having a glass transition temperature (Tg) equal to or exceeding 418 K (145 °C).

Notes: 1C010.e. does not control:

a.

epoxy resin "matrix" impregnated carbon "fibrous or filamentary materials" (prepregs) for the repair of "civil aircraft" structures or laminates, in which the size of individual sheets of prepreg does not exceed 100 cm × 100 cm;

b.

prepregs when impregnated with phenolic or epoxy resins having a glass transition temperature (Tg) less than 433 K (160 °C) and a cure temperature lower than the glass transition temperature.

Technical note:

The glass transition temperature (Tg) for 1C010.e. materials is determined using the method described in ASTM D 3418 using the dry method. The glass transition temperature for phenolic and epoxy resins is determined using the method described in ASTM D 4065 at a frequency of 1 Hz and a heating rate of 2 K (°C) per minute using the dry method.

1C011
Metals and compounds, as follows:

N.B.: SEE ALSO MILITARY GOODS CONTROLS and 1C111.

a.

metals in particle sizes of less than 60 μm whether spherical, atomised, spheroidal, flaked or ground, manufactured from material consisting of 99 % or more of zirconium, magnesium and alloys of these;

Technical note:

The natural content of hafnium in the zirconium (typically 2 % to 7 %) is counted with the zirconium.

Note: the metals or alloys listed in 1C011.a. are controlled whether or not the metals or alloys are encapsulated in aluminium, magnesium, zirconium or beryllium.

b.

boron or boron carbide of 85 % purity or higher and a particle size of 60 μm or less;

Note: the metals or alloys listed in 1C011.b. are controlled whether or not the metals or alloys are encapsulated in aluminium, magnesium, zirconium or beryllium.

c.

guanidine nitrate;

d.

nitroguanidine (NQ) (CAS 556-88-7).

1C012
Materials as follows:

Technical note:

These materials are typically used for nuclear heat sources.

a.

plutonium in any form with a plutonium isotopic assay of plutonium-238 of more than 50 % by weight;

Note: 1C012.a. does not control:

a.

shipments with a plutonium content of 1 g or less;

b.

shipments of 3 "effective grammes" or less when contained in a sensing component in instruments.

b.

"previously separated" neptunium-237 in any form.

Note: 1C012.b. does not control shipments with a neptunium-237 content of 1 g or less.

1C101
Materials and devices for reduced observables such as radar reflectivity, ultraviolet/infrared signatures and acoustic signatures, other than those specified in 1C001, usable in ’missiles’, "missile" subsystems or unmanned aerial vehicles specified in 9A012.

Note 1: 1C101 includes:

a.

structural materials and coatings specially designed for reduced radar reflectivity;

b.

coatings, including paints, specially designed for reduced or tailored reflectivity or emissivity in the microwave, infrared or ultraviolet regions of the electromagnetic spectrum.

Note 2: 1C101 does not include coatings when specially used for the thermal control of satellites.

Technical note:

In 1C101 ’missile’ means complete rocket systems and unmanned aerial vehicle systems capable of a range exceeding 300 km.

1C102
Resaturated pyrolized carbon-carbon materials designed for space launch vehicles specified in 9A004 or sounding rockets specified in 9A104.

1C107
Graphite and ceramic materials, other than those specified in 1C007, as follows:

a.

fine grain graphites with a bulk density of 1,72 g/cm3 or greater, measured at 288 K (15 °C), and having a grain size of 100 μm or less, usable for rocket nozzles and re-entry vehicle nose tips, which can be machined to any of the following products:

1.

cylinders having a diameter of 120 mm or greater and a length of 50 mm or greater;

2.

tubes having an inner diameter of 65 mm or greater and a wall thickness of 25 mm or greater and a length of 50 mm or greater; or

3.

blocks having a size of 120 mm × 120 mm × 50 mm or greater;

N.B.: SEE ALSO 0C004

b.

pyrolytic or fibrous reinforced graphites, usable for rocket nozzles and re-entry vehicle nose tips usable in "missiles", space launch vehicles specified in 9A004 or sounding rockets specified in 9A104;

N.B.: SEE ALSO 0C004

c.

ceramic composite materials (dielectric constant less than 6 at any frequency from 100 MHz to 100 GHz) for use in radomes usable in "missiles", space launch vehicles specified in 9A004 or sounding rockets specified in 9A104;

d.

bulk machinable silicon-carbide reinforced unfired ceramic, usable for nose tips usable in "missiles", space launch vehicles specified in 9A004 or sounding rockets specified in 9A104;

e.

reinforced silicon-carbide ceramic composites, usable for nose tips, reentry vehicles and nozzle flaps usable in "missiles", space launch vehicles specified in 9A004 or sounding rockets specified in 9A104.

1C111
Propellants and constituent chemicals for propellants, other than those specified in 1C011, as follows:

a.

propulsive substances:

1.

spherical aluminium powder, other than that specified in the Military Goods Controls, with particles of uniform diameter of less than 200 μm and an aluminium content of 97 % by weight or more, if at least 10 % of the total weight is made up of particles of less than 63 μm, according to ISO 2591:1988 or national equivalents;

Technical note:

A particle size of 63 μm (ISO R-565) corresponds to 250 mesh (Tyler) or 230 mesh (ASTM standard E-11).

2.

metal fuels, other than that specified in the Military Goods Controls, in particle sizes of less than 60 μm, whether spherical, atomised, spheroidal, flaked or ground, consisting 97 % by weight or more of any of the following:

a.

zirconium;

b.

beryllium;

c.

magnesium; or

d.

alloys of the metals specified by (a) to (c) above;

Technical note:

The natural content of hafnium in the zirconium (typically 2 % to 7 %) is counted with the zirconium.

3.

Oxidiser substances usable in liquid propellant rocket engines as follows:

a.

dinitrogen trioxide;

b.

nitrogen dioxide/dinitrogen tetroxide;

c.

dinitrogen pentoxide;

d.

mixed Oxides of Nitrogen (MON);

Technical note:

Mixed Oxides of Nitrogen (MON) are solutions of Nitric Oxide (NO) in Dinitrogen Tetroxide/Nitrogen Dioxide (N2O4/NO2) that can be used in missile systems. There are a range of compositions that can be denoted as MONi or MONij, where i and j are integers representing the percentage of Nitric Oxide in the mixture (e.g., MON3 contains 3 % Nitric Oxide, MON25 25 % Nitric Oxide. An upper limit is MON40, 40 % by weight).

e.

see Military Goods Controls for Inhibited Red Fuming Nitric Acid (IRFNA);

f.

see Military Goods Controls and 1C238 for Compounds composed of fluorine and one or more of other halogens, oxygen or nitrogen;

4.

Hydrazine derivatives as follows:

a.

trimethylhydrazine;

b.

tetramethylhydrazine;

c.

N, N diallylhydrazine;

d.

allylhydrazine;

e.

ethylene dihydrazine;

f.

monomethylhydrazine dinitrate;

g.

unsymmetrical dimethylhydrazine nitrate;

h.

hydrazinium azide;

i.

dimethylhydrazinium azide;

j.

see Military Goods Controls for Hydrazinium nitrate;

k.

diimido oxalic acid dihydrazine;

l.

2-hydroxyethylhydrazine nitrate (HEHN);

m.

see Military Goods Controls for Hydrazinium perchlorate;

n.

hydrazinium diperchlorate;

o.

methylhydrazine nitrate (MHN);

p.

diethylhydrazine nitrate (DEHN);

q.

1,4-dihydrazine nitrate (DHTN);

b.

polymeric substances:

1.

carboxy-terminated polybutadiene (CTPB);

2.

hydroxy-terminated polybutadiene (HTPB), other than that specified in the Military Goods Controls;

3.

polybutadiene-acrylic acid (PBAA);

4.

polybutadiene-acrylic acid-acrylonitrile (PBAN);

5.

polytetrahydrofuran polyethylene glycol (TPEG);

Technical note:

Polytetrahydrofuran polyethylene glycol (TPEG) is a block co-polymer of poly 1,4-Butanediol and polyethylene glycol (PEG).

c.

other propellant additives and agents:

1.

see Military Goods Controls for Carboranes, decaboranes, pentaboranes and derivatives thereof;

2.

triethylene glycol dinitrate (TEGDN);

3.

2-Nitrodiphenylamine (CAS 119-75-5);

4.

trimethylolethane trinitrate (TMETN) (CAS 3032-55-1);

5.

diethylene glycol dinitrate (DEGDN);

6.

ferrocene derivatives as follows:

a.

see Military Goods Controls for catocene;

b.

ethyl ferrocene;

c.

propyl ferrocene (CAS 1273-89-8);

d.

see Military Goods Controls for n-butyl ferrocene;

e.

pentyl ferrocene (CAS 1274-00-6);

f.

dicyclopentyl ferrocene;

g.

dicyclohexyl ferrocene;

h.

diethyl ferrocene;

i.

dipropyl ferrocene;

j.

dibutyl ferrocene;

k.

dihexyl ferrocene;

l.

acetyl ferrocenes;

m.

see Military Goods Controls for ferrocene Carboxylic acids;

n.

see Military Goods Controls for butacene;

o.

other ferrocene derivatives usable as rocket propellant burning rate modifiers, other than those specified in the Military Goods Controls.

Note: for propellants and constituent chemicals for propellants not specified in 1C111, see the Military Goods Controls.

1C116
Maraging steels (steels generally characterised by high nickel, very low carbon content and the use of substitutional elements or precipitates to produce age-hardening) having an ultimate tensile strength of 1 500 MPa or greater, measured at 293 K (20 °C), in the form of sheet, plate or tubing with a wall or plate thickness equal to or less than 5 mm.

N.B.: SEE ALSO 1C216.

1C117
Tungsten, molybdenum and alloys of these metals in the form of uniform spherical or atomized particles of 500 micrometre diameter or less with a purity of 97 % or greater for fabrication of rocket motor components, usable in "missiles", space launch vehicles specified in 9A004 or sounding rockets specified in 9A104 (i.e., heat shields, nozzle substrates, nozzle throats and thrust vector control surfaces).

1C118
Titanium-stabilised duplex stainless steel (Ti-DSS) having all of the following:

a.

having all of the following characteristics:

1.

containing 17,0-23,0 weight percent chromium and 4,5-7,0 weight percent nickel;

2.

having a titanium content of greater than 0,10 weight percent; and

3.

a ferritic-austenitic microstructure (also referred to as a two-phase microstructure) of which at least 10 percent is austenite by volume (according to ASTM E-1181-87 or national equivalents); and

b.

having any of the following forms:

1.

ingots or bars having a size of 100 mm or more in each dimension;

2.

sheets having a width of 600 mm or more and a thickness of 3 mm or less; or

3.

tubes having an outer diameter of 600 mm or more and a wall thickness of 3 mm or less.

1C202
Alloys, other than those specified in 1C002.b.3. or .b.4., as follows:

a.

aluminium alloys having both of the following characteristics:

1.

"capable of" an ultimate tensile strength of 460 MPa or more at 293 K (20 °C); and

2.

in the form of tubes or cylindrical solid forms (including forgings) with an outside diameter of more than 75 mm;

b.

titanium alloys having both of the following characteristics:

1.

"capable of" an ultimate tensile strength of 900 MPa or more at 293 K (20 °C); and

2.

in the form of tubes or cylindrical solid forms (including forgings) with an outside diameter of more than 75 mm.

Technical note:

The phrase alloys "capable of" encompasses alloys before or after heat treatment.

1C210
"Fibrous or filamentary materials" or prepregs, other than those specified in 1C010.a., b. or e., as follows:

a.

carbon or aramid "fibrous or filamentary materials" having either of the following characteristics:

1.

a "specific modulus" of 12,7 × 106 m or greater; or

2.

a "specific tensile strength" of 235 × 103 m or greater;

Note: 1C210.a. does not control aramid "fibrous or filamentary materials" having 0,25 percent or more by weight of an ester based fibre surface modifier;

b.

glass "fibrous or filamentary materials" having both of the following characteristics:

1.

a "specific modulus" of 3,18 × 106 m or greater; and

2.

a "specific tensile strength" of 76,2 × 103 m or greater;

c.

thermoset resin impregnated continuous "yarns", "rovings", "tows" or "tapes" with a width of 15 mm or less (prepregs), made from carbon or glass "fibrous or filamentary materials" specified in 1C210.a. or b.

Technical note:

The resin forms the matrix of the composite.

Note: in 1C210, ’fibrous or filamentary materials’ is restricted to continuous "monofilaments", "yarns", "rovings", "tows" or "tapes".

1C216
Maraging steel, other than that specified in 1C116, ’capable of’ an ultimate tensile strength of 2 050 MPa or more, at 293 K (20 °C).

Note: 1C216 does not control forms in which all linear dimensions are 75 mm or less.

Technical note:

The phrase maraging steel "capable of" encompasses maraging steel before or after heat treatment.

1C225
Boron enriched in the boron-10 (10B) isotope to greater than its natural isotopic abundance, as follows: elemental boron, compounds, mixtures containing boron, manufactures thereof, waste or scrap of any of the foregoing.

Note: in 1C225 mixtures containing boron include boron loaded materials.

Technical note:

The natural isotopic abundance of boron-10 is approximately 18,5 weight per cent (20 atom per cent).

1C226
Tungsten, tungsten carbide, and alloys containing more than 90 % tungsten by weight, having both of the following characteristics:

a.

in forms with a hollow cylindrical symmetry (including cylinder segments) with an inside diameter between 100 mm and 300 mm; and

b.

a mass greater than 20 kg.

Note: 1C226 does not control manufactures specially designed as weights or gamma-ray collimators.

1C227
Calcium having both of the following characteristics:

a.

containing less than 1 000 parts per million by weight of metallic impurities other than magnesium; and

b.

containing less than 10 parts per million by weight of boron.

1C228
Magnesium having both of the following characteristics:

a.

containing less than 200 parts per million by weight of metallic impurities other than calcium; and

b.

containing less than 10 parts per million by weight of boron.

1C229
Bismuth having both of the following characteristics:

a.

a purity of 99,99 % or greater by weight; and

b.

containing less than 10 parts per million by weight of silver.

1C230
Beryllium metal, alloys containing more than 50 % beryllium by weight, beryllium compounds, manufactures thereof, and waste or scrap of any of the foregoing.

Note: 1C230 does not control the following:

a.

metal windows for X-ray machines, or for bore-hole logging devices;

b.

oxide shapes in fabricated or semi-fabricated forms specially designed for electronic component parts or as substrates for electronic circuits;

c.

beryl (silicate of beryllium and aluminium) in the form of emeralds or aquamarines.

1C231
Hafnium metal, alloys containing more than 60 % hafnium by weight, hafnium compounds containing more than 60 % hafnium by weight, manufactures thereof, and waste or scrap of any of the foregoing.

1C232
Helium-3 (3He), mixtures containing helium-3, and products or devices containing any of the foregoing.

Note: 1C232 does not control a product or device containing less than 1 g of helium-3.

1C233
Lithium enriched in the lithium-6 (6Li) isotope to greater than its natural isotopic abundance, and products or devices containing enriched lithium, as follows: elemental lithium, alloys, compounds, mixtures containing lithium, manufactures thereof, waste or scrap of any of the foregoing.

Note: 1C233 does not control thermoluminescent dosimeters.

Technical note:

The natural isotopic abundance of lithium-6 is approximately 6,5 weight per cent (7,5 atom per cent).

1C234
Zirconium with a hafnium content of less than 1 part hafnium to 500 parts zirconium by weight, as follows: metal, alloys containing more than 50 % zirconium by weight, compounds, manufactures thereof, waste or scrap of any of the foregoing.

Note: 1C234 does not control zirconium in the form of foil having a thickness of 0,10 mm or less.

1C235
Tritium, tritium compounds, mixtures containing tritium in which the ratio of tritium to hydrogen atoms exceeds 1 part in 1 000, and products or devices containing any of the foregoing.

Note: 1C235 does not control a product or device containing less than 1,48 × 103 GBq (40 Ci) of tritium.

1C236
Alpha-emitting radionuclides having an alpha half-life of 10 days or greater but less than 200 years, in the following forms:

a.

elemental;

b.

compounds having a total alpha activity of 37 GBq/kg (1 Ci/kg) or greater;

c.

mixtures having a total alpha activity of 37 GBq/kg (1 Ci/kg) or greater;

d.

products or devices containing any of the foregoing.

Note: 1C236 does not control a product or device containing less than 3,7 GBq (100 millicuries) of alpha activity.

1C237
Radium-226 (226Ra), radium-226 alloys, radium-226 compounds, mixtures containing radium-226, manufactures thereof, and products or devices containing any of the foregoing.

Note: 1C237 does not control the following:

a.

medical applicators;

b.

a product or device containing less than 0,37 GBq (10 millicuries) of radium-226.

1C238
Chlorine trifluoride (ClF3).

1C239
High explosives, other than those specified in the Military Goods Controls, or substances or mixtures containing more than 2 % by weight thereof, with a crystal density greater than 1,8 g/cm3 and having a detonation velocity greater than 8 000 m/s.

1C240
Nickel powder and porous nickel metal, other than those specified in 0C005, as follows:

a.

nickel powder having both of the following characteristics:

1.

a nickel purity content of 99,0 % or greater by weight; and

2.

a mean particle size of less than 10 micrometres measured by American Society for Testing and Materials (ASTM) B330 standard;

b.

porous nickel metal produced from materials specified in 1C240.a.

Note: 1C240 does not control the following:

a.

filamentary nickel powders;

b.

single porous nickel sheets with an area of 1 000 cm2 per sheet or less.

Technical note:

1C240.b. refers to porous metal formed by compacting and sintering the materials in 1C240.a. to form a metal material with fine pores interconnected throughout the structure.

1C350
Chemicals, which may be used as precursors for toxic chemical agents, as follows, and "chemical mixtures" containing one or more thereof:

N.B.: SEE ALSO MILITARY GOODS CONTROLS AND 1C450.

1.

thiodiglycol (111-48-8);

2.

phosphorus oxychloride (10025-87-3);

3.

dimethyl methylphosphonate (756-79-6);

4.

SEE MILITARY GOODS CONTROLS FOR Methyl phosphonyl difluoride (676-99-3);

5.

methyl phosphonyl dichloride (676-97-1);

6.

dimethyl phosphite (DMP) (868-85-9);

7.

phosphorus trichloride (7719-12-2);

8.

trimethyl phosphite (TMP) (121-45-9);

9.

thionyl chloride (7719-09-7);

10.

3-Hydroxy-1-methylpiperidine (3554-74-3);

11.

N,N-Diisopropyl-(beta)-aminoethyl chloride (96-79-7);

12.

N,N-Diisopropyl-(beta)-aminoethane thiol (5842-07-9);

13.

3-Quinuclidinol (1619-34-7);

14.

potassium fluoride (7789-23-3);

15.

2-Chloroethanol (107-07-3);

16.

dimethylamine (124-40-3);

17.

diethyl ethylphosphonate (78-38-6);

18.

diethyl-N,N-dimethylphosphoramidate (2404-03-7);

19.

diethyl phosphite (762-04-9);

20.

dimethylamine hydrochloride (506-59-2);

21.

ethyl phosphinyl dichloride (1498-40-4);

22.

ethyl phosphonyl dichloride (1066-50-8);

23.

SEE MILITARY GOODS CONTROLS FOR Ethyl phosphonyl difluoride (753-98-0);

24.

hydrogen fluoride (7664-39-3);

25.

methyl benzilate (76-89-1);

26.

methyl phosphinyl dichloride (676-83-5);

27.

N,N-Diisopropyl-(beta)-amino ethanol (96-80-0);

28.

pinacolyl alcohol (464-07-3);

29.

SEE MILITARY GOODS CONTROLS FOR O-Ethyl-2-diisopropylaminoethyl methyl phosphonite (QL) (57856-11-8);

30.

triethyl phosphite (122-52-1);

31.

arsenic trichloride (7784-34-1);

32.

benzilic acid (76-93-7);

33.

diethyl methylphosphonite (15715-41-0);

34.

dimethyl ethylphosphonate (6163-75-3);

35.

ethyl phosphinyl difluoride (430-78-4);

36.

methyl phosphinyl difluoride (753-59-3);

37.

3-Quinuclidone (3731-38-2);

38.

phosphorus pentachloride (10026-13-8);

39.

pinacolone (75-97-8);

40.

potassium cyanide (151-50-8);

41.

potassium bifluoride (7789-29-9);

42.

ammonium hydrogen fluoride or ammonium bifluoride (1341-49-7);

43.

sodium fluoride (7681-49-4);

44.

sodium bifluoride (1333-83-1);

45.

sodium cyanide (143-33-9);

46.

triethanolamine (102-71-6);

47.

phosphorus pentasulphide (1314-80-3);

48.

di-isopropylamine (108-18-9);

49.

diethylaminoethanol (100-37-8);

50.

sodium sulphide (1313-82-2);

51.

sulphur monochloride (10025-67-9);

52.

sulphur dichloride (10545-99-0);

53.

triethanolamine hydrochloride (637-39-8);

54.

N,N-Diisopropyl-(Beta)-aminoethyl chloride hydrochloride (4261-68-1);

55.

methylphosphonic acid (993-13-5);

56.

diethyl methylphosphonate (683-08-9);

57.

N,N-Dimethylaminophosphoryl dichloride (677-43-0);

58.

triisopropyl phosphite (116-17-6);

59.

ethyldiethanolamine (139-87-7);

60.

O,O-Diethyl phosphorothioate (2465-65-8);

61.

O,O-Diethyl phosphorodithioate (298-06-6);

62.

sodium hexafluorosilicate (16893-85-9);

63.

methylphosphonothioic dichloride (676-98-2).

Note 1: for exports to "States not Party to the Chemical Weapons Convention", 1C350 does not control "chemical mixtures" containing one or more of the chemicals specified in entries 1C350.1, .3, .5, .11, .12, .13, .17, .18, .21, .22, .26, .27, .28, .31, .32, .33, .34, .35, .36, .54, .55, .56, .57 and .63 in which no individually specified chemical constitutes more than 10 % by the weight of the mixture.

Note 2: for exports to "States Party to the Chemical Weapons Convention", 1C350 does not control "chemical mixtures" containing one or more of the chemicals specified in entries 1C350.1, .3, .5, .11, .12, .13, .17, .18, .21, .22, .26, .27, .28, .31, .32, .33, .34, .35, .36, .54, .55, .56, .57 and .63 in which no individually specified chemical constitutes more than 30 % by the weight of the mixture.

Note 3: 1C350 does not control "chemical mixtures" containing one or more of the chemicals specified in entries 1C350.2, .6, .7, .8, .9, .10, .14, .15, .16, .19, .20, .24, .25, .30, .37, .38, .39, .40, .41, .42, .43, .44, .45, .46, .47, .48, .49, .50, .51, .52, .53, .58, .59, .60, .61 and .62 in which no individually specified chemical constitutes more than 30 % by the weight of the mixture.

Note 4: 1C350 does not control products identified as consumer goods packaged for retail sale for personal use or packaged for individual use.

1C351
Human pathogens, zoonoses and "toxins", as follows:

a.

viruses, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material including living material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

chikungunya virus;

2.

congo-Crimean haemorrhagic fever virus;

3.

dengue fever virus;

4.

eastern equine encephalitis virus;

5.

ebola virus;

6.

hantaan virus;

7.

junin virus;

8.

lassa fever virus;

9.

lymphocytic choriomeningitis virus;

10.

machupo virus;

11.

marburg virus;

12.

monkey pox virus;

13.

rift Valley fever virus;

14.

tick-borne encephalitis virus (Russian Spring-Summer encephalitis virus);

15.

variola virus;

16.

venezuelan equine encephalitis virus;

17.

western equine encephalitis virus;

18.

white pox;

19.

yellow fever virus;

20.

Japanese encephalitis virus;

21.

kyasanur Forest virus;

22.

louping ill virus;

23.

murray Valley encephalitis virus;

24.

omsk haemorrhagic fever virus;

25.

oropouche virus;

26.

powassan virus;

27.

rocio virus;

28.

St Louis encephalitis virus;

29.

hendra virus (Equine morbillivirus);

30.

South American haemorrhagic fever (Sabia, Flexal, Guanarito);

31.

pulmonary & renal syndrome-haemorrhagic fever viruses (Seoul, Dobrava, Puumala, Sin Nombre);

32.

nipah virus.

b.

rickettsiae, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material including living material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

coxiella burnetii;

2.

bartonella quintana (Rochalimaea quintana, Rickettsia quintana);

3.

rickettsia prowasecki;

4.

rickettsia rickettsii;

c.

bacteria, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material including living material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

bacillus anthracis;

2.

brucella abortus;

3.

brucella melitensis;

4.

brucella suis;

5.

chlamydia psittaci;

6.

Clostridium botulinum;

7.

francisella tularensis;

8.

burkholderia mallei (Pseudomonas mallei);

9.

burkholderia pseudomallei (Pseudomonas pseudomallei);

10.

salmonella typhi;

11.

shigella dysenteriae;

12.

vibrio cholerae;

13.

yersinia pestis;

14.

clostridium perfringens epsilon toxin producing types;

15.

enterohaemorrhagic Escherichia coli, serotype O157 and other verotoxin producing serotypes.

d.

"toxins", as follows, and "sub-unit of toxins" thereof:

1.

botulinum toxins;

2.

clostridium perfringens toxins;

3.

conotoxin;

4.

ricin;

5.

saxitoxin;

6.

shiga toxin;

7.

staphylococcus aureus toxins;

8.

tetrodotoxin;

9.

verotoxin and shiga-like ribosome inactivating proteins;

10.

microcystin (Cyanginosin);

11.

aflatoxins;

12.

abrin;

13.

cholera toxin;

14.

diacetoxyscirpenol toxin;

15.

T-2 toxin;

16.

HT-2 toxin;

17.

modeccin;

18.

volkensin;

19.

viscum album Lectin 1 (Viscumin).

Note: 1C351.d. does not control botulinum toxins or conotoxins in product form meeting all of the following criteria:

1.

are pharmaceutical formulations designed for human administration in the treatment of medical conditions;

2.

sre pre-packaged for distribution as medical products;

3.

are authorised by a state authority to be marketed as medical products.

e.

fungi, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material including living material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

coccidioides immitis;

2.

coccidioides posadasii.

Note: 1C351 does not control "vaccines" or "immunotoxins".

1C352
Animal pathogens, as follows:

a.

viruses, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material including living material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

african swine fever virus;

2.

avian influenza virus, which are:

a.

uncharacterised; or

b.

defined in EC Directive 92/40/EEC (OJ L 167, 22.6.1992, p. 1) as having high pathogenicity, as follows:

1.

type A viruses with an IVPI (intravenous pathogenicity index) in 6-week-old chickens of greater than 1,2; or

2.

type A viruses H5 or H7 subtype for which nucletide sequencing has demonstrated multiple basic amino acids at the cleavage site of haemagglutinin;

3.

bluetongue virus;

4.

foot and mouth disease virus;

5.

goat pox virus;

6.

porcine herpes virus (Aujeszky's disease);

7.

swine fever virus (Hog cholera virus);

8.

lyssa virus;

9.

newcastle disease virus;

10.

peste des petits ruminants virus;

11.

porcine enterovirus type 9 (swine vesicular disease virus);

12.

rinderpest virus;

13.

sheep pox virus;

14.

teschen disease virus;

15.

vesicular stomatitis virus;

16.

lumpy skin disease virus;

17.

african horse sickness virus.

b.

mycoplasmas, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material including living material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

mycoplasma mycoides. subspecies mycoides SC (small colony);

2.

mycoplasma capricolum subspecies capripneumoniae.

Note: 1C352 does not control "vaccines".

1C353
Genetic elements and genetically modified organisms, as follows:

a.

genetically modified organisms or genetic elements that contain nucleic acid sequences associated with pathogenicity of organisms specified in 1C351.a., 1C351.b., 1C351.c, 1C351.e., 1C352 or 1C354;

b.

genetically modified organisms or genetic elements that contain nucleic acid sequences coding for any of the "toxins" specified in 1C351.d. or "sub-units of toxins" thereof.

Technical notes:

1.

Genetic elements include, inter alia, chromosomes, genomes, plasmids, transposons and vectors whether genetically modified or unmodified.

2.

Nucleic acid sequences associated with the pathogenicity of any of the micro-organisms specified in 1C351.a., 1C351.b., 1C351.c., 1C351.e., 1C352 or 1C354 means any sequence specific to the specified micro-organism that:

a.

in itself or through its transcribed or translated products represents a significant hazard to human, animal or plant health; or

b.

is known to enhance the ability of a specified micro-organism, or any other organism into which it may be inserted or otherwise integrated, to cause serious harm to humans, animals or plant health.

Note: 1C353 does not apply to nucleic acid sequences associated with the pathogenicity of enterohaemorrhagic Escherichia coli, serotype O157 and other verotoxin producing strains, other than those coding for the verotoxin, or for its sub-units.

1C354
Plant pathogens, as follows:

a.

viruses, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material including living material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

potato Andean latent tymovirus;

2.

potato spindle tuber viroid;

b.

bacteria, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

Xanthomonas albilineans;

2.

Xanthomonas campestris pv. citri including strains referred to as Xanthomonas campestris pv. citri types A, B, C, D, E or otherwise classified as Xanthomonas citri, Xanthomonas campestris pv. aurantifolia or Xanthomonas campestris pv. citrumelo;

3.

Xanthomonas oryzae pv. Oryzae (Pseudomonas campestris pv. Oryzae);

4.

Clavibacter michiganensis subsp. Sepedonicus (Corynebacterium michiganensis subsp. Sepedonicum or Corynebacterium Sepedonicum);

5.

Ralstonia solanacearum Races 2 and 3 (Pseudomonas solanacearum Races 2 and 3 or Burkholderia solanacearum Races 2 and 3);

c.

fungi, whether natural, enhanced or modified, either in the form of "isolated live cultures" or as material which has been deliberately inoculated or contaminated with such cultures, as follows:

1.

Colletotrichum coffeanum var. virulans (Colletotrichum kahawae);

2.

Cochliobolus miyabeanus (Helminthosporium oryzae);

3.

Microcyclus ulei (syn. Dothidella ulei);

4.

Puccinia graminis (syn. Puccinia graminis f. sp. tritici);

5.

Puccinia striiformis (syn. Puccinia glumarum);

6.

Magnaporthe grisea (pyricularia grisea/pyricularia oryzae).

1C450
Toxic chemicals and toxic chemical precursors, as follows, and "chemical mixtures" containing one or more thereof:

N.B.: SEE ALSO ENTRY 1C350, 1C351.d. AND MILITARY GOODS CONTROLS.

a.

toxic chemicals, as follows:

1.

Amiton: O,O-Diethyl S-[2-(diethylamino) ethyl] phosphorothiolate (78-53-5) and corresponding alkylated or protonated salts;

2.

PFIB: 1,1,3,3,3-Pentafluoro-2-(trifluoromethyl)-1-propene (382-21-8);

3.

SEE MILITARY GOODS CONTROLS FOR BZ: 3-Quinuclidinyl benzilate (6581-06-2);

4.

Phosgene: Carbonyl dichloride (75-44-5);

5.

Cyanogen chloride (506-77-4);

6.

Hydrogen cyanide (74-90-8);

7.

Chloropicrin: Trichloronitromethane (76-06-2);

Note 1: for exports to "States not Party to the Chemical Weapons Convention", 1C450 does not control "chemical mixtures" containing one or more of the chemicals specified in entries 1C450.a.1. and .a.2. in which no individually specified chemical constitutes more than 1 % by the weight of the mixture.

Note 2: for exports to "States Party to the Chemical Weapons Convention", 1C450 does not control "chemical mixtures" containing one or more of the chemicals specified in entries 1C450.a.1. and .a.2. in which no individually specified chemical constitutes more than 30 % by the weight of the mixture.

Note 3: 1C450 does not control "chemical mixtures" containing one or more of the chemicals specified in entries 1C450.a.4., .a.5., .a.6. and .a.7. in which no individually specified chemical constitutes more than 30 % by the weight of the mixture.

Note 4: 1C450 does not control products identified as consumer goods packaged for retail sale for personal use or packaged for individual use.

b.

toxic chemical precursors, as follows:

1.

chemicals, other than those specified in the Military Goods Controls or in 1C350, containing a phosphorus atom to which is bonded one methyl, ethyl or propyl (normal or iso) group but not further carbon atoms;

Note: 1C450.b.1. does not control Fonofos: O-Ethyl S-phenyl ethylphosphonothiolothionate (944-22-9);

2.

N,N-Dialkyl [methyl, ethyl or propyl (normal or iso)] phosphoramidic dihalides, other than N,N-Dimethylaminophosphoryl dichloride;

N.B.: see 1C350.57. for N,N-Dimethylaminophosphoryl dichloride.

3.

Dialkyl [methyl, ethyl or propyl (normal or iso)] N,N-dialkyl [methyl, ethyl or propyl (normal or iso)]-phosphoramidates, other than Diethyl-N,N-dimethylphosphoramidate which is specified in 1C350;

4.

N,N-Dialkyl [methyl, ethyl or propyl (normal or iso)] aminoethyl-2-chlorides and corresponding protonated salts, other than N,N-Diisopropyl-(beta)-aminoethyl chloride or N,N-Diisopropyl-(beta)-aminoethyl chloride hydrochloride which are specified in 1C350;

5.

N,N-Dialkyl [methyl, ethyl or propyl (normal or iso)] aminoethane-2-ols and corresponding protonated salts, other than N,N-Diisopropyl-(beta)-aminoethanol (96-80-0) and N,N-Diethylaminoethanol (100-37-8) which are specified in 1C350;

Note: 1C450.b.5. does not control the following:

a.

N,N-Dimethylaminoethanol (108-01-0) and corresponding protonated salts;

b.

protonated salts of N,N-Diethylaminoethanol (100-37-8);

6.

N,N-Dialkyl [methyl, ethyl or propyl (normal or iso)] aminoethane-2-thiols and corresponding protonated salts, other than N,N-Diisopropyl-(beta)-aminoethane thiol which is specified in 1C350;

7.

See 1C350 for ethyldiethanolamine (139-87-7);

8.

Methyldiethanolamine (105-59-9).

Note 1: for exports to "States not Party to the Chemical Weapons Convention", 1C450 does not control "chemical mixtures" containing one or more of the chemicals specified in entries 1C450.b.1., .b.2., .b.3., .b.4., .b.5. and .b.6. in which no individually specified chemical constitutes more than 10 % by the weight of the mixture.

Note 2: for exports to "States Party to the Chemical Weapons Convention", 1C450 does not control "chemical mixtures" containing one or more of the chemicals specified in entries 1C450.b.1., .b.2., .b.3., .b.4., .b.5. and .b.6. in which no individually specified chemical constitutes more than 30 % by the weight of the mixture.

Note 3: 1C450 does not control "chemical mixtures" containing one or more of the chemicals specified in entry 1C450.b.8. in which no individually specified chemical constitutes more than 30 % by the weight of the mixture.

Note 4: 1C450 does not control products identified as consumer goods packaged for retail sale for personal use or packaged for individual use.

1D
Software

1D001
"Software" specially designed or modified for the "development", "production" or "use" of equipment specified in 1B001 to 1B003.

1D002
"Software" for the "development" of organic "matrix", metal "matrix" or carbon "matrix" laminates or "composites".

1D003
"Software" specially designed or modified to enable equipment to perform the functions of equipment specified in 1A004.c.

1D101
"Software" specially designed or modified for the "use" of goods specified in 1B101, 1B102, 1B115, 1B117, 1B118 or 1B119.

1D103
"Software" specially designed for analysis of reduced observables such as radar reflectivity, ultraviolet/infrared signatures and acoustic signatures.

1D201
"Software" specially designed for the "use" of goods specified in 1B201.

1E
Technology

1E001
"Technology" according to the General Technology Note for the "development" or "production" of equipment or materials specified in 1A001.b., 1A001.c., 1A002 to 1A005, 1B or 1C.

1E002
Other "technology", as follows:

a.

"technology" for the "development" or "production" of polybenzothiazoles or polybenzoxazoles;

b.

"technology" for the "development" or "production" of fluoroelastomer compounds containing at least one vinylether monomer;

c.

"technology" for the design or "production" of the following base materials or non-"composite" ceramic materials:

1.

base materials having all of the following characteristics:

a.

any of the following compositions:

1.

single or complex oxides of zirconium and complex oxides of silicon or aluminium;

2.

single nitrides of boron (cubic crystalline forms);

3.

single or complex carbides of silicon or boron; or

4.

single or complex nitrides of silicon;

b.

total metallic impurities, excluding intentional additions, of less than:

1.

1 000 ppm for single oxides or carbides; or