|
(3)
|
the following entries are inserted according to the numerical order of the CN and TARIC codes in the second and third columns:
|
Serial Number
|
CN code
|
TARIC
|
Description
|
Rate of autonomous duty
|
Supplementary Unit
|
Date envisaged for mandatory review
|
|
‘0.9085
|
ex 1515 60 99
|
20
|
Microbial oil, refined or semi-refined, but not chemically modified, containing by weight in the form of triglycerides:
|
—
|
35 % or more but not more than 70 % of arachidonic acid
|
|
—
|
not more than 3 % by weight of docosahexaenoic acid
|
|
0 %
|
—
|
31.12.2030
|
|
0.9064
|
ex 2904 99 00
|
75
|
Trifluoromethanesulfonic acid (CAS RN 1493-13-6) with a purity by weight of 99 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9088
|
ex 2905 29 90
|
50
|
Prop-2-yn-1-ol (CAS RN 107-19-7) with a purity by weight of 99 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9071
|
ex 2921 43 00
|
45
|
α,α,α-Trifluoro-o-toluidine (CAS RN 88-17-5) with a purity by weight of 98 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9016
|
ex 2922 29 00
|
53
|
m-Anisidine (CAS RN 536-90-3) with a purity by weight of 95 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9012
|
ex 2924 29 70
|
44
|
4-(2,2-Diethoxyacetyl)-3,5-difluoro-N-methylbenzamide (CAS RN 3089027-90-4) with a purity by weight of 95 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9010
|
ex 2928 00 90
|
68
|
Ethyl hydrazinoacetate hydrochloride (CAS RN 6945-92-2) with a purity by weight of 98 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9006
|
ex 2930 90 95
|
22
|
4,4,5,5,5-Pentafluoropentyl carbamimidothioate-methanesulfonate (1:1) (CAS RN 1107606-68-7) with a purity by weight of 99 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9011
|
ex 2930 90 95
|
24
|
Trimethyloxosulfonium chloride (CAS RN 5034-06-0) with a purity by weight of 98 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9004
|
ex 2931 90 00
|
21
|
(2-Fluoro-4-phenoxyphenyl)boronic acid (CAS RN 1414356-30-1) with a purity by weight of 95 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9013
|
ex 2932 19 00
|
38
|
(2,2-Diphenyltetrahydrofuran-3-yl)methanol (CAS RN 93651-75-3) with a purity by weight of 98 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9015
|
ex 2933 19 90
|
78
|
3-(3-Methyl-5-oxo-4,5-dihydro-1H-pyrazol-1-yl)benzenesulfonic acid (CAS RN 119-17-5) with a purity by weight of 95 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9075
|
ex 2933 19 90
|
83
|
Isomeric mixture containing by weight 97 % or more of the two isomers
|
—
|
2-(3,4-Dimethyl-1H-pyrazol-1-yl)succinic acid, and
|
|
—
|
2-(4,5-Dimethyl-1H-pyrazol-1-yl)succinic acid
|
(CAS RN 2241455-89-8)
|
0 %
|
—
|
31.12.2030
|
|
0.9008
|
ex 2933 39 99
|
19
|
5-Chloro-1-(4-piperidyl)-1H-benzimidazol-2(3H)-one (CAS RN 53786-28-0) with a purity by weight of 99 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9060
|
ex 2933 39 99
|
94
|
Cyantraniliprole (ISO) (CAS RN 736994-63-1) with a purity by weight of 90 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.8997
|
ex 2933 59 95
|
35
|
3-Iodo-1H-pyrazolo[3,4-d]pyrimidin-4-amine (CAS RN 151266-23-8) with a purity by weight of 98 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9061
|
ex 2933 59 95
|
40
|
Pirimiphos-methyl (ISO) (CAS RN 29232-93-7) with a purity by weight of 90 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9058
|
ex 2933 69 80
|
38
|
Tris({[1,1′-biphenyl]-4-yl})-1,3,5-triazine (CAS RN 31274-51-8) with a purity by weight of 97 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9009
|
ex 2933 99 80
|
83
|
1-(3-Chloropropyl)-1,3-dihydro-2H-benzimidazol-2-one (CAS RN 62780-89-6) with a purity by weight of 97 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.8994
|
ex 2933 99 80
|
84
|
Allyl (2S,4S)-4-benzoylsulfanyl-2-(dimethylcarbamoyl)pyrrolidine-1-carboxylate (CAS RN 141818-73-7) with a purity by weight of 96 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.8996
|
ex 2934 99 90
|
32
|
(6R,7R)-Benzhydryl 3-hydroxy-8-oxo-7-(2-phenylacetamido)-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylate (CAS RN 54639-48-4) with a purity by weight of 95 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9005
|
ex 2934 99 90
|
34
|
Benzyl 4-(oxetan-3-yl)piperazine-1-carboxylate (CAS RN 1254115-22-4) with a purity by weight of 99 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9007
|
ex 2934 99 90
|
36
|
Nadide phosphate (INNM) disodium salt (CAS RN 24292-60-2) with a purity by weight of 97 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.8993
|
ex 2934 99 90
|
46
|
(6R-trans)-7-Amino-8-oxo-3-[[(1,2,5,6-tetrahydro-2-methyl-5,6-dioxo-1,2,4-triazin-3-yl)thio]methyl]-5-thia-1-azabicyclo[4.2.0]oct-2-ene-2-carboxylic acid (CAS RN 58909-56-1) with a purity by weight of 97 % or more
|
0 %
|
—
|
31.12.2030
|
|
0.9056
|
ex 3204 17 00
|
32
|
Colourant C.I. Pigment Violet 23 (CAS RN 215247-95-3) and preparations based thereon with a colourant C.I. Pigment Violet 23 content of 70 % or more by weight
|
0 %
|
—
|
31.12.2030
|
|
0.9074
|
ex 3810 10 00
|
10
|
Tin or zinc based, halide free, surface mount technology processing solder paste:
|
—
|
with metal contents of 87,5 % or more, but not more than 90,1 % by weight,
|
|
—
|
with an alloy solidus temperature of 210 °C or more,
|
|
—
|
with a viscosity of 178 Pa· s or more, but not more than 235 Pa· s,
|
|
—
|
with a particle size of 40 μm or less,
|
|
—
|
with a silver content either of 3,15 % or more, but not more than 3,5 % by weight for tin based paste or of 0,25 % or more, but not more than 0,28 % by weight for zinc based paste,
|
|
—
|
with or without bismuth content of 2,55 % or more, but not more than 2,71 % by weight,
|
|
—
|
with or without copper content of 0,6 % or more, but not more than 0,7 % by weight
|
|
0 %
|
—
|
31.12.2030
|
|
0.9073
|
ex 3815 12 00
|
40
|
Catalyst used to obtain paraxylene and orthoxylene by isomerization of methaxylene containing by weight:
|
—
|
60 % or more but not more than 95 % of aluminum oxide (CAS RN 1344-28-1),
|
|
—
|
5 % or more but not more than 15 % of aluminosilicate (CAS RN 1327-36-2),
|
|
—
|
not more than 2 % of platinum (CAS RN 7440-06-4),
|
|
—
|
not more than 2 % aluminum chloride hydroxide (CAS RN 12042-91-0),
|
|
—
|
not more than 0,2 % of hydrogen sulfide (CAS RN 7783-06-4)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9086
|
ex 3815 19 90
|
33
|
Catalyst, in powder form, consisting of a mixture of metal oxides fixed to a silicon dioxide support, with a total content by weight of molybdenum, bismuth and iron of 20 % or more but not more than 50 %, for use in the manufacture of acrylonitrile (2)
|
0 %
|
—
|
31.12.2030
|
|
0.9062
|
ex 3824 99 96
|
38
|
Low outgassing thermally conductive silicone paste:
|
—
|
with thermal conductivity when cured of 3,45 W/(m·K) or more but not more than 3,55 W/(m·K),
|
|
—
|
with continuous use temperature minimum range from -60o C to 200o C,
|
|
—
|
with heat capacity when cured of 0,75 J/g· K or more but not more than 0,85 J/g· K,
|
|
—
|
with volume resistivity when cured of 1 010 Ω· m or more,
|
|
—
|
packaged in containers of 30 kg or more
|
|
0 %
|
—
|
31.12.2030
|
|
0.8999
|
ex 3902 90 90
|
63
|
Hydrogenated poly(1-octene) (CAS RN 70693-43-5)
|
0 %
|
—
|
31.12.2030
|
|
0.9078
|
ex 3907 29 20
|
63
|
Preparation containing by weight
|
—
|
5 % or more but not more than 15 % of polyethylene-polypropylene glycol (CAS RN 9003-11-6), and
|
|
—
|
85 % or more but not more than 95 % of oxirane, 2-methyl-,polymer with oxirane, ether with 5-(2-(4-(bis(2-hydroxyethyl)amino)-2-methylphenyl)diazenyl)-3-methyl-2,4-thiophenedicarbonitrile (2:1) (CAS RN 515857-23-5)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9079
|
ex 3907 29 20
|
65
|
Preparation containing by weight
|
—
|
40 % or more but not more than 60 % of oxirane, 2-methyl-, polymer with oxirane, ether with 2,2-[[3-methyl-4-[(4-methyl-2-benzothiazolyl)azo]phenyl]imino]bis[ethanol] (2:1) (CAS RN 229306-55-2), and
|
|
—
|
40 % or more but not more than 60 % of polyethylene-polypropylene glycol (CAS RN 9003-11-6)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9077
|
ex 3907 29 20
|
68
|
Preparation containing by weight
|
—
|
90 % or more but not more than 99 % of oxirane, 2-methyl-,polymer with oxirane, ether with ethyl 3-(4-(bis(2-hydroxyethyl)amino)phenyl)-2-cyano-2-propenoate (2:1) (CAS RN 152286-82-3), and
|
|
—
|
1 % or more but not more than 10 % of polyethylene-polypropylene glycol (CAS RN 9003-11-6)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9081
|
ex 3907 29 20
|
70
|
Preparation containing by weight
|
—
|
50 % or more but not more than 70 % of oxirane, methyl-polymer with oxirane, ether with bis(4-[bis(2-hydroxyethyl)amino)phenyl] (2-sulfophenyl)methyl (4:1), monosodium salt block (CAS RN 126042-89-5), and
|
|
—
|
30 % or more but not more than 50 % of polyethylene-polypropylene glycol (CAS RN 9003-11-6)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9082
|
ex 3907 29 20
|
73
|
Preparation containing by weight of
|
—
|
23 % or more but not more than 36 % of oxirane, 2-methyl-,polymer with oxirane, ether with bis(4-(bis(2-hydroxyethyl)amino)phenyl)(2-sulfophenyl)methyl (4:1), monosodium salt, block (CAS RN 126042-89-5),
|
|
—
|
4 % or more but not more than 20 % of polyethylene-polypropylene glycol (CAS RN 9003-11-6),
|
|
—
|
25 % or more but not more than 30 % of oxirane, 2-methyl-,polymer with oxirane, ether with 2,2′-((3-methyl-4-((4-methyl-2-benzothiazolyl)azo)phenyl)imino)bis(ethanol)(2:1) (CAS RN 229306-55-2),
|
|
—
|
5 % or more but not more than 10 % of oxirane, 2-methyl-,polymer with oxirane, ether with 5-(2-(4-(bis(2-hydroxyethyl)amino)-2-methylphenyl)diazenyl)-3-methyl-2,4-thiophenedicarbonitrile (2:1) (CAS RN 515857-23-5), and
|
|
—
|
15 % or more but not more than 25 % of oxirane, 2-methyl-,polymer with oxirane, ether with ethyl 3-(4-bis(2-hydroxyethyl)amino)phenyl)-2-cyano-2-propenoate (2:1) (CAS RN 152286-82-3)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9080
|
ex 3907 29 20
|
75
|
Preparation containing by weight
|
—
|
60 % or more but not more than 80 % of Oxirane, 2-methyl-,polymer with oxirane, ether with 2,2′,2′′,2′′′-(sulfonylbis(4,1-phenylene)-2,1-diazenediyl(3-methyl-4,1-phenylene)nitrilo))tetrakis(ethanol) (4:1) (CAS RN 927432-39-1), and
|
|
—
|
20 % or more but not more than 40 % of polyethylene-polypropylene glycol (CAS RN 9003-11-6)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9001
|
ex 3919 90 80
|
57
|
Self-adhesive polycarbonate film, printed, whether or not arched, with:
|
—
|
a thickness of 0,3 mm or more, but not more than 0,4 mm,
|
|
—
|
minimum dimensions of 63 mm x 15 mm,
|
|
—
|
maximum dimensions of 278 mm x 117 mm,
|
|
—
|
a weight of not more than 5 g per piece,
|
intended for integration into combined instrument panels of passenger cars
|
0 %
|
—
|
31.12.2030
|
|
0.9057
|
ex 3920 62 19
|
70
|
Poly(ethylene terephthalate) film in rolls with:
|
—
|
a thickness of 35 μm or more, but not more than 75 μm,
|
|
—
|
a tensile strength of 40 MPa or more in the machine direction (MD) and 200 MPa or more in the transverse direction (TD),
|
|
—
|
an elongation at break of 400 % or more in MD and 30 % or more in TD,
|
|
—
|
a heat shrinkage (in water at 90 °C/10s) in MD of 0,49 % or more, but not more than 0,51 %,
|
|
—
|
a dynamic heat shrinkage (between 55 °C and 70 °C) in TD of not more than 20 percentage points,
|
|
—
|
a light transmittance of 85 % or more,
|
|
—
|
a haze ratio of not more than 6 %,
|
|
—
|
a surface tension of 38 mN/m or more,
|
|
—
|
a density of 1,30 g/cm3 or more, but not more than 1,34 g/cm3,
|
|
—
|
a shelf life declared by the manufacturer of not less than 12 months
|
|
0 %
|
—
|
31.12.2030
|
|
0.9055
|
ex 3921 19 00
|
53
|
Sheets of closed-cell silicone foam with:
|
—
|
a thickness of 2,0 mm or more but not more than 4,8 mm,
|
|
—
|
a thermal insulation of more than 0,25 Km2/W but not more than 0,4 Km2/W (according to ASTM-C518)
|
|
—
|
a dielectric strength of more than 3,0 Kv/mm but not more than 3,8 Kv/mm (according to ASTM-D149)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9048
|
ex 5401 10 14
|
10
|
Core yarn of high tenacity polyester filament surrounded by polyester staple fibres:
|
—
|
with a twist of 410 TPM or more but not more than 1 200 TPM,
|
|
—
|
with a linear density of 200 dtex or more but not more than 1 500 dtex,
|
|
—
|
with an average tenacity of 46 cN/tex or more,
|
|
—
|
with an elongation at break of 13 % or more but not more than 23 %,
|
|
—
|
wound on a perforated dyeing tube,
|
|
—
|
with a weight, including tube, of 900 g or more
|
|
0 %
|
—
|
31.12.2030
|
|
0.9003
|
ex 5402 20 00
|
07
|
High tenacity polyester multifilament yarn:
|
—
|
with final twist in Z direction;
|
|
—
|
with a linear density of 100 dtex or more, but not more than 4 000 dtex
|
|
—
|
with an average minimum tenacity of 64 cN/tex;
|
|
—
|
with an elongation at break of 12 % or more, but not more than 28 %;
|
|
—
|
with a shrinkage in 98 °C of 0 % or more, but not more than 3,5 %;
|
|
—
|
wound on the perforated dyeing tube with 0,9 kg of yarn or more ready for dyeing
|
|
0 %
|
—
|
31.12.2030
|
|
0.9063
|
ex 5503 90 00
|
40
|
Staple fibres with a poly(ethylene terephthalate) core fully encapsulated by polyethylene with:
|
—
|
a linear density of 0,60 dtex or more but not more than 1,60 dtex,
|
|
—
|
a staple fibre length of 37 mm or more but not more than 44 mm,
|
|
—
|
an elongation at break of 80 % or more,
|
|
—
|
a tenacity of 1 cN/dtex or more
|
|
0 %
|
—
|
31.12.2030
|
|
0.8939
|
ex 5603 94 80
|
50
|
Needle-punched spunbond nonwovens, consisting of polyamide fibres individually coated with polyvinylalcohol, containing by weight 20 % or more but not more than 40 % of polyvinylalcohol weighing 400 g/m2 or more
|
0 %
|
—
|
31.12.2030
|
|
0.9053
|
ex 6804 21 00
|
50
|
Wheels suitable for grinding, rounding, polishing, aligning or cutting:
|
—
|
composed of metal base and agglomerated synthetic or natural diamonds,
|
|
—
|
whether or not containing a hole in the centre,
|
|
—
|
with an external diameter not more than 870 mm, for machines for the manufacture of semiconductor wafers (2)
|
|
–0 %
|
—
|
31.12.2026
|
|
0.8998
|
ex 6814 10 00
|
20
|
Phlogopite mica tape bonded with silicone resin to a glass fabric reinforced polyethylene film,
|
—
|
with a thickness of 0,10 mm or more but not more than 1,60 mm,
|
|
—
|
with a width of 500 mm or more but not more than 1 200 mm,
|
|
—
|
a mica content of 80 g/m2 or more but not more than 165 g/m2,
|
|
—
|
a tensile strength of 110 N/cm or more but not more than 130 N/cm
|
|
0 %
|
—
|
31.12.2030
|
|
0.9059
|
ex 7002 20 90
|
10
|
Cylindrical shaped glass preforms of high-purity silica glass (quartz):
|
—
|
with an optical core made of germanium-doped silica glass (quartz), intended for the production of low-loss optical fiber:
|
|
—
|
with a length of not more than 2 500 mm,
|
|
—
|
with a diameter of 115 mm or more but not more than 139 mm,
|
|
—
|
on one side with a conical end
|
|
—
|
on the other side with a handle with a diameter of 25,4 mm, coated at the end with aluminium oxide
|
|
0 %
|
—
|
31.12.2030
|
|
0.9054
|
ex 7019 61 00
|
60
|
Flexible prepreg in sheets or rolls,
|
—
|
of modified epoxy resin with embedded glass fabric,
|
|
—
|
without halogenated flame retardants
|
|
—
|
with a TMA glass transition of 145 °C or more but not more than 200 °C (ASTM E1545)
|
|
—
|
specified according to IPC-4101/128, 130, 153 or 154
|
|
0 %
|
—
|
31.12.2030
|
|
0.9087
|
ex 7410 21 00
|
65
|
Sheets or Plates
|
—
|
consisting of at least one layer of fiberglass fabric impregnated with modified epoxy resin, without the use of halogenated flame retardants,
|
|
—
|
covered on one or both sides with copper foil with a thickness of 0,15 mm or less,
|
|
—
|
and with a TG of 145 °C or more but not more than 280 °C according to TMA, in agreement with IPC-4101/128 or 4101/130 or IPC-4101/153 or 4101/154
|
|
0 %
|
—
|
31.12.2030
|
|
0.9049
|
ex 8110 90 00
|
10
|
Antimony-Beryllium pellets containing by weight:
|
—
|
20 % or more but not more than 25 % of beryllium (CAS 7440-41-7)
|
|
—
|
77 % or more but not more than 83 % of antimony (CAS 7440-36-0)
|
|
0 %
|
—
|
31.12.2030
|
|
0.9018
|
ex 8414 30 20
|
60
|
Hermetic compressor for R290 refrigerant for the production of refrigerators and freezers:
|
—
|
with a power not exceeding 0,4 kW,
|
|
—
|
pre-filled with lubricant from 190 ml to 210 ml,
|
|
—
|
suction and processing pipe inner diameter from 6,40 mm to 6,60 mm,
|
|
—
|
discharge pipe inner diameter from 4,80 mm to 5,00 mm,
|
|
—
|
driven by a brushless DC motor,
|
|
—
|
cooling capacity from 340 to 360 W at ASHRAE LBP 3 000 rpm,
|
|
—
|
displacement from 6,5 cm3 to 7,5 cm3,
|
|
—
|
speed range from 1 600 rpm to 4 200 rpm (2)
|
|
–0 %
|
—
|
31.12.2030
|
|
0.9045
|
ex 8414 59 35
|
50
|
DC motor centrifugal fan with:
|
—
|
a nominal voltage of 8 V or more, but not more than 13 V,
|
|
—
|
a nominal maximum speed of 1 400 rpm or more, but not more than 1 950 rpm,
|
|
—
|
a horizontal or vertical position of the fan blades shaft,
|
|
—
|
a boosting time of not more than 10 seconds,
|
|
—
|
a cable with a length of 30 cm or more, but not more than 50 cm, with RAST 2,5 connector,
|
|
—
|
a nominal power of 0,7 W or more, but not more than 3,5 W,
|
|
—
|
a tacho or feedback signal to monitor the speed
|
|
0 %
|
p/st
|
31.12.2030
|
|
0.9044
|
ex 8418 99 90
|
70
|
Household appliances condenser, being a type of heat exchanger, made entirely of aluminium A3102, A3003, A4045 or A4343, consisting of two vertical pipes and arranged horizontally between them 16 parallel flat tubes with fins, with:
|
—
|
one vertical pipe with inlet and outlet tubes,
|
|
—
|
a width of 297 mm or more, but not more than 373 mm,
|
|
—
|
a height of 154 mm or more, but not more than 158 mm,
|
|
—
|
a depth of 17 mm or more, but not more than 23 mm,
|
|
—
|
a flatness tolerance of less than 2 mm for the fin pack within the condenser core,
|
|
—
|
a weight of 224 g or more, but not more than 283 g
|
|
0 %
|
—
|
31.12.2030
|
|
0.9023
|
ex 8483 30 80
|
30
|
Commutator end shield (bearing housing with plain shaft bearing) for starter motors of passenger cars and commercial vehicles
|
—
|
produced with high pressure precision die casting technology,
|
|
—
|
made of aluminium alloy (EN AC-46000 or EN AC-46000 S, according to the DIN EN 1706 and GB/T 16116 standards),
|
|
—
|
with sintered plain bearing
|
|
0 %
|
—
|
31.12.2030
|
|
0.9040
|
ex 8483 50 80
|
50
|
Metal spinned single or double pulley:
|
—
|
made of DC03 steel or similar non alloy steel or free cutting steel,
|
|
—
|
with a pitch diameter of 67 mm or more but not more than 145 mm,
|
|
—
|
with an inner hole designed for bearing mounting or key mounting
|
|
0 %
|
—
|
31.12.2030
|
|
0.9039
|
ex 8483 50 80
|
60
|
Metal spinned triple pulley:
|
—
|
made of DC03 steel or similar non-alloy steel or free cutting steel,
|
|
—
|
with a pitch diameter of 60 mm or more, but not more than 130 mm,
|
|
—
|
with an inner hole designed for bearing mounting
|
|
0 %
|
—
|
31.12.2030
|
|
0.9025
|
ex 8483 60 80
|
20
|
Overrunning clutch for passenger car and commercial vehicle starter motors with:
|
—
|
a total length of 49,4 mm or more but not more than 210 mm,
|
|
—
|
a starter motor pinion with 9 or more but not more than 16 teeth
|
|
0 %
|
—
|
31.12.2030
|
|
0.9037
|
ex 8501 52 20
|
55
|
Brushless synchronous alternating current electric motors with permanent magnets, with:
|
—
|
an output power of 1 000 W or more, but not more than 1 400 W,
|
|
—
|
a rotor containing 8 poles, generated by permanent magnets composed mainly of praseodymium-neodymium-iron-boron (GB/T 13560-2017 standard), enclosed in a stainless steel cover,
|
|
—
|
a motor magnet shaft end outer diameter of 10,001 mm or more, but not more than 10,007 mm,
|
|
—
|
motor terminals located across the 37,00 mm radius and separated by an angle of 30,00 o,
|
|
—
|
a motor housing made of ADC12 or EN AC46000 aluminium alloy die casting with composition of aluminium-silicon-copper (per JIS H5302-2000 or EN 1706 standard),
|
|
0 %
|
p/st
|
31.12.2030
|
|
|
|
|
|
—
|
a back electromotive force constant (Ke) of 0,0265 V-sec/rad or more, but not more than 0,0293 V-sec/rad,
|
|
—
|
a back electromotive force (EMF) harmonic order – 5th of no more than 0,4 % (of fundamental) and 7th of no more than 0,2 % (of fundamental),
|
|
—
|
a synchronous inductance of 33,49 μH or more, but not more than 37,01 μH,
|
|
—
|
a cogging torque of not more than 15 mNm,
|
|
—
|
a friction torque in ambient temperature of not more than 20 mNm,
|
|
—
|
a maximum motor operation temperature of not more than 200 °C,
|
with or without a spline on the motor shaft
|
|
|
|
|
0.9020
|
ex 8503 00 20
|
20
|
Plated steel core of the electric motor rotor of electric air conditioning compressors for motor vehicles:
|
—
|
with an outer diameter of 65 mm or more but not more than 80 mm,
|
|
—
|
with an inner diameter of 15 mm or more but not more than 25 mm,
|
|
—
|
with a height of 30 mm or more but not more than 45 mm,
|
|
—
|
with a weight of 0,5 kg or more but not more than 0,8 kg,
|
|
0 %
|
—
|
31.12.2030
|
|
0.9019
|
ex 8503 00 20
|
30
|
Plated steel core of the electric motor stator of electric air conditioning compressors for motor vehicles:
|
—
|
with an outer diameter of 90 mm or more but not more than 120 mm,
|
|
—
|
with an inner diameter of 65 mm or more but not more than 80 mm,
|
|
—
|
with a height of 30 mm or more but not more than 45 mm,
|
|
—
|
with a weight of 0,7 kg or more but not more than 1,2 kg,
|
|
0 %
|
—
|
31.12.2030
|
|
0.9021
|
ex 8503 00 98
|
45
|
Armature for the electric motor in starter motors of passenger cars and commercial vehicles with:
|
—
|
an outer diameter of 52 mm or more but not more than 80 mm,
|
|
—
|
a commutator copper wire diameter of 2 mm or more but not more than 4 mm
|
|
0 %
|
—
|
31.12.2030
|
|
0.9026
|
ex 8511 90 00
|
20
|
Drive end shield for starter motors and alternators of passenger cars and commercial vehicles
|
—
|
produced with high pressure precision die casting technology,
|
|
—
|
made of aluminium alloy (EN 1706 grade AC-47100 or AC-47100 S or AC-46000 or AC-46000 S or AC-44300),
|
|
—
|
whether or not with bearing
|
|
0 %
|
—
|
31.12.2030
|
|
0.9022
|
ex 8511 90 00
|
30
|
Commutator for passenger car and commercial vehicle starter motors
|
—
|
with a length of 27,7 mm or more but not more than 44,6 mm,
|
|
—
|
with umbrella or drum design
|
|
0 %
|
—
|
31.12.2030
|
|
0.9043
|
ex 8516 80 80
|
10
|
Electric heating resistor with a triple loop design:
|
—
|
mainly made of AISI 316L stainless steel,
|
|
—
|
with a rated voltage of 230V,
|
|
—
|
with a rated power of 2 000 W,
|
|
—
|
with a total heating element length of 217 mm or more, but not more than 223 mm,
|
|
—
|
with a heating element working length of 169,5 mm or more, but not more than 174,5 mm,
|
|
—
|
with a mounting flange diameter of 28 mm or more, but not more than 32 mm,
|
|
—
|
with a heating element bending radius of 10,75 mm,
|
|
—
|
equipped with thermal fuses,
|
|
—
|
without a built-in NTC sensor,
|
|
—
|
with nickel plated terminal pin and connector
|
|
0 %
|
—
|
31.12.2030
|
|
0.9014
|
ex 8544 30 00
|
23
|
High-voltage single-core battery supply cable fitted with:
|
—
|
a high-voltage connector,
|
|
—
|
a metal flat lug with an eyelet in a plastic housing,
|
|
—
|
three or more plastic mounting clips
|
for use in the manufacture of rechargeable batteries for hybrid and electric vehicles (2)
|
0 %
|
—
|
31.12.2030
|
|
0.9000
|
ex 8544 30 00
|
33
|
Wiring harness for transmitting safety parameters from battery modules fitted with:
|
—
|
input and output connectors,
|
|
—
|
three or more plastic mounting clips
|
for use in the manufacture of rechargeable batteries for hybrid and electric vehicles (2)
|
0 %
|
—
|
31.12.2030
|
|
0.9002
|
ex 8544 30 00
|
43
|
High voltage battery cable assembly, comprising:
|
—
|
a single core high voltage cable terminated with a flat lug,
|
|
—
|
a safety fuse for an electric current of 10 A or more but not more than 400 A,
|
|
—
|
a flat copper conductor with surface insulation terminated with a flat lug,
|
|
—
|
three or more plastic clips for attachment
|
for use in the manufacture of rechargeable batteries for hybrid and electric vehicles (2)
|
0 %
|
—
|
31.12.2030
|
|
0.9027
|
ex 8547 90 00
|
10
|
Li-ion battery module component made of mica for fire protection, with a specially designed shape for the top and sides with:
|
—
|
a length of 480,0 or more but not more than 630,0 mm,
|
|
—
|
a width of 78,0 or more but not more than 233,0 mm and
|
|
—
|
a thickness of 0,75 or more but not more than 2,50 mm
|
|
1,85 %
|
—
|
31.12.2026
|
|
0.9038
|
ex 8548 00 90
|
45
|
Electromagnetic Interference filter designed to eliminate conducted electromagnetic interference from a power line,
|
—
|
with a rated voltage of 250 V AC,
|
|
—
|
with a rated current of not more than 15 A,
|
|
—
|
with an operating frequency of 50/60 Hz,
|
|
—
|
with a dielectric strength of 1 500 V AC for 1 minute,
|
|
—
|
containing a bleeder resistor with a resistance of 470 kΩ,
|
|
—
|
containing three varistors: one with rated voltage of 680 V, one of 910 V and one of 1 800 V, each ±10 %,
|
|
—
|
mounted with an M8 screw with an average breaking force of 93 kgf/cm
|
|
0 %
|
—
|
31.12.2030
|
|
0.9033
|
ex 8708 94 99
|
80
|
Blank assembly worm gear, consisting of a hub of carbon steel (GB/T 699 grade 25 or DIN EN 10277 grade 11SMn30) and a ring of cast polyamide 6/12 with:
|
—
|
an outer diameter of 97,35 mm or more, but not more than 102,65 mm,
|
|
—
|
an inner diameter of 27,91 mm or more, but not more than 27,93 mm,
|
|
—
|
a height of the hub of 11,75 mm or more, but not more than 12,00 mm,
|
|
—
|
an overall height of 16,00 mm or more, but not more than 18,00 mm
|
|
0 %
|
—
|
31.12.2030
|
|
0.9029
|
ex 8708 99 97
|
27
|
Inner pole electromagnet core used in Magneto-Rheological engine mounts to reduce shocks and for isolation and damping in passenger cars:
|
—
|
of a powder metal assembly,
|
|
—
|
with a diameter of not more than 90,95 mm,
|
|
—
|
with an overall height of 24,5 mm,
|
|
—
|
impregnated with sealant,
|
|
0 %
|
—
|
31.12.2030
|
|
0.9030
|
ex 9401 99 20
|
30
|
Latch seat system modules enabling seat sliding, latching and unlatching in random, independent positions along the rails:
|
—
|
with an integrated safety locking mechanism,
|
|
—
|
with a cassette architecture for integration with seat through screw connections,
|
|
—
|
with a housing made of a magnesium die-cast alloy,
|
|
—
|
with an anti-noise system,
|
|
—
|
interfacing with car rail systems,
|
|
—
|
without electronic control unit,
|
|
—
|
without semiconductors,
|
|
—
|
with a weight of 1 475 g or more, but not more than 1 619 g
|
|
0 %
|
—
|
31.12.2030
|
|
(2) Suspension of duties is subject to end-use customs supervision in accordance with Article 254 of Regulation (EU) No 952/2013.’.
|
|