ISO 6363-2:2022

INTERNATIONAL ISO
STANDARD 6363-2
Third edition
2022-07
Wrought aluminium and aluminium
alloys — Cold-drawn rods/bars, tubes
and wires —
Part 2:
Mechanical properties
Aluminium et alliages d'aluminium corroyés — Barres, tubes et fils
étirés à froid —
Partie 2: Caractéristiques mécaniques
Reference number
ISO 6363-2:2022(E)
© ISO 2022

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ISO 6363-2:2022(E)
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© ISO 2022
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Published in Switzerland
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ISO 6363-2:2022(E)
Contents Page
Foreword .iv
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 1
4 Tensile testing . 1
5 Mechanical properties .2
Annex A (normative) Rules for rounding .15
Annex B (informative) List of tempers used in Tables 1 and 2 .16
Bibliography .18
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ISO 6363-2:2022(E)
Foreword
ISO (the International Organization for Standardization) is a worldwide federation of national standards
bodies (ISO member bodies). The work of preparing International Standards is normally carried out
through ISO technical committees. Each member body interested in a subject for which a technical
committee has been established has the right to be represented on that committee. International
organizations, governmental and non-governmental, in liaison with ISO, also take part in the work.
ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of
electrotechnical standardization.
The procedures used to develop this document and those intended for its further maintenance are
described in the ISO/IEC Directives, Part 1. In particular, the different approval criteria needed for the
different types of ISO documents should be noted. This document was drafted in accordance with the
editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of
any patent rights identified during the development of the document will be in the Introduction and/or
on the ISO list of patent declarations received (see www.iso.org/patents).
Any trade name used in this document is information given for the convenience of users and does not
constitute an endorsement.
For an explanation of the voluntary nature of standards, the meaning of ISO specific terms and
expressions related to conformity assessment, as well as information about ISO’s adherence to
the World Trade Organization (WTO) principles in the Technical Barriers to Trade (TBT), see
www.iso.org/iso/foreword.html.
This document was prepared by Technical Committee ISO/TC 79, Light metals and their alloys,
Subcommittee SC 6, Wrought aluminium and aluminium alloys.
This third edition cancels and replaces the second edition (ISO 6363-2:2012), which has been technically
revised. The main changes are as follows:
— in Clause 5, ISO 6362-7 and ISO 2107 have been added as references for the alloys and tempers listed
in this document;
— in Clause 5, alloys 2033 and 6026 have been added in Table 1;
— errors have been corrected and expressions modified throughout.
A list of all parts in the ISO 6363 series can be found on the ISO website.
Any feedback or questions on this document should be directed to the user’s national standards body. A
complete listing of these bodies can be found at www.iso.org/members.html.
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INTERNATIONAL STANDARD ISO 6363-2:2022(E)
Wrought aluminium and aluminium alloys — Cold-drawn
rods/bars, tubes and wires —
Part 2:
Mechanical properties
1 Scope
This document specifies the mechanical properties of wrought aluminium and aluminium alloy rods/
bars, tubes and wires for general engineering applications (except aeronautical rivets).
It is applicable to products which are extruded and then cold drawn.
It does not apply to:
— products which are rolled and then cold drawn, including seam-welded tubes;
— forging stock, wire for drawing stock;
— drawn wires for aeronautical application, electrical or welding purposes.
2 Normative references
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments) applies.
ISO 6363-1, Wrought aluminium and aluminium alloys — Cold-drawn rods/bars, tubes and wires — Part 1:
Technical conditions for inspection and delivery
ISO 6892-1, Metallic materials — Tensile testing — Part 1: Method of test at room temperature
ASTM B557M, Standard Test Methods for Tension Testing Wrought and Cast Aluminum- and Magnesium-
Alloy Products
3 Terms and definitions
For the purposes of this document, the terms and definitions given in ISO 6363-1 apply.
ISO and IEC maintain terminology databases for use in standardization at the following addresses:
— ISO Online browsing platform: available at https:// www .iso .org/ obp
— IEC Electropedia: available at https:// www .electropedia .org/
4 Tensile testing
The selection of the specimens and tensile testing shall be in accordance with ISO 6892-1 or
ASTM B557M.
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ISO 6363-2:2022(E)
5 Mechanical properties
Values for mechanical properties of aluminium and aluminium alloys are given in Tables 1 and 2.
For elongation, two different gauge lengths are used. The choice of the gauge length for elongation
measurements (A or A ) is at the discretion of the producer, unless otherwise agreed.
50mm
NOTE A is the percentage elongation on a gauge length of 5,65 S . A is the percentage elongation on a
o 50mm
gauge length of 50 mm.
Alloys mentioned in this document are listed in ISO 6362-7.
Temper designations used in this document are in accordance with ISO 2107. Test results shall be
rounded in accordance with the rules given in Annex A.
A list of tempers used in Tables 1 and 2 is given in Annex B.
Table 1 — Mechanical properties of rods/bars and wires
Tensile strength 0,2 % proof Elongation
R stress min.
m
R
p0,2
MPa
a
Alloy Temper Dimensions
MPa
min. max. min. max. A A
50mm
% %
1050 O D or S ≤ 3 60 100 — — — —
3 < D or S ≤ 100 60 100 20 — — 25
H14 D or S ≤ 10 95 — — — — —
H18 D or S ≤ 10 125 — — — — —
1050A O D or S ≤ 30 60 — 20 — 25 —
H14 D or S ≤ 30 100 — 70 — 6 5
H16 D ≤ 15 or S ≤ 5 120 160 105 — 4 3
H18 D or S ≤ 10 130 — 110 — 3 —
1070 O D or S ≤ 3 55 95 — — — —
3 < D or S ≤ 100 55 95 15 — — 25
H14 D or S ≤ 10 85 — — — — —
H18 D or S ≤ 10 120 — — — — —
1080A O D ≤ 20 — 80 — — — —
H14 D ≤ 18 90 — — — — —
H18 D ≤ 10 120 — — — — —
1098 O D ≤ 20 — 70 — — — —
H14 D ≤ 18 85 — — — — —
H18 D ≤ 10 115 — — — — —
1100 O D or S ≤ 3 75 110 — — — —
3 < D or S ≤ 100 75 110 20 — 22 25
b
H14 D or S ≤ 30 110 — 80 — 5 —
b
H18 D or S ≤ 10 150 — 130 — 3 —
1200 O D or S ≤ 3 75 110 — — — —
3 < D or S ≤ 30 75 110 30 — 20 25
30 < D or S ≤ 100 75 110 20 — — 25
H14 D or S ≤ 30 110 — 80 — 5 —
H16 D ≤ 15 or S ≤ 5 135 170 115 3 3
2
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ISO 6363-2:2022(E)
Table 1 (continued)
Tensile strength 0,2 % proof Elongation
R stress min.
m
R
p0,2
MPa
a
Alloy Temper Dimensions
MPa
min. max. min. max. A A
50mm
% %
2007 T3 D or S ≤ 30 370 — 240 — 7 5
30 < D or S ≤ 80 340 — 220 — 6 —
T351 D or S ≤ 80 370 — 240 — 5 3
g
2011 T3 3 < D or S ≤ 38 310 — 260 — 9 10
38 < D or S ≤ 50 295 — 235 — 10 12
50 < D or S ≤ 80 280 — 205 — 10 14
g
T8 3 ≤ D or S ≤ 80 370 — 270 — 8 10
H13 D ≤ 18 155 225 — — — —
H18 D ≤ 10 240 — — — — —
2011A T3 D or S ≤ 40 320 — 270 — 10 8
40 < D or S ≤ 50 300 — 250 — 10 —
50 < D or S ≤ 80 280 — 210 — 10 —
T8 D or S ≤ 80 370 — 270 — 8 6
2014 O 3 ≤ D or S ≤ 100 — 245 — — — 12
T3 D or S ≤ 80 380 — 290 — 8 6
T351 D or S ≤ 80 380 — 290 — 6 4
T4 3 ≤ D or S ≤ 100 380 — 220 — 10 16
c
T42
T451
T6 3 ≤ D or S ≤ 100 450 — 380 — 7 8
d
T62
T651
2014A O D or S ≤ 80 — 240 — 125 12 10
H111
e
H13 D ≤ 18 210 280 — — — —
H18 D ≤ 10 295 — — — — —
T3 D or S ≤ 80 380 — 290 — 8 6
T351 D or S ≤ 80 380 — 290 — 6 4
T4 D or S ≤ 100 380 — 220 — 10 10
T451
T6 D or S ≤ 50 440 — 360 — 7 8
T651 D or S ≤ 100 450 — 380 — 7 8
2017 O D or S ≤ 3 — 245 — — — —
3 < D or S ≤ 100 — 245 — — — 16
H13 3 ≤ D or S ≤ 10 205 275 — — — —
T4 D or S ≤ 3 380 — — — — —
c
3 < D or S ≤ 100 380 — 225 — — 12
T42
3
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ISO 6363-2:2022(E)
Table 1 (continued)
Tensile strength 0,2 % proof Elongation
R stress min.
m
R
p0,2
MPa
a
Alloy Temper Dimensions
MPa
min. max. min. max. A A
50mm
% %
2017A O D or S ≤ 80 — 240 — 125 12 10
H111
e
H13 D ≤ 18 210 300 — — — —
H18 D ≤ 10 315 — — — — —
g
T3 D or S ≤ 80 400 — 250 — 10 8
g
T351 D or S ≤ 80 400 — 250 — 8 6
T4 D or S ≤ 50 380 — 220 — 10 —
50 < D or S ≤ 100 390 — 235 — 10 —
T451
e
2117 H13 D or S ≤ 18 170 240 — — — —
H15 3 < D or S ≤ 10 195 245 — — — —
H18 D ≤ 18 260 — — — — —
T4 3 < D or S ≤ 10 265 — 125 — — 18
f
2024 O D or S ≤ 3 — 245 — — — —
3 < D or S ≤ 100 — 245 — — — 16
H111
e
H13 D ≤ 18 230 300 — — — —
H18 D ≤ 10 320 — — — — —
T3 D or S ≤ 10 425 — 310 — 10 8
10 < D or S ≤ 80 425 — 290 — 9 7
T351 12,5 < D or S ≤ 100 425 — 310 — 9 —
T4 D or S ≤ 3 425 — — — — —
3 < D or S ≤ 12 425 — 310 — 10 10
T451
12 < D or S ≤ 100 425 — 290 — 9 10
c
T42 D or S ≤ 3 430 — — — — —
3 < D or S ≤ 100 430 — 275 — — 10
T6 D or S ≤ 80 425 — 315 — 5 4
T651 D or S ≤ 80 425 — 315 — 4 3
d
T62 D or S ≤ 3 410 — — — — —
3 < D or S ≤ 100 410 — 315 — — 5
T8 D or S ≤ 80 455 — 400 — 4 3
T851 D or S ≤ 80 455 — 400 — 3 2
2030 T3 D or S ≤ 50 370 — 250 — 7 —
50 < D or S ≤ 100 340 — 210 — 7 —
T351 D or S ≤ 80 370 — 240 — 5 3
2033 T3 D or S ≤ 30 370 — 240 — 7 —
30 < D or S ≤ 80 340 — 220 — 7 —
T351 D or S ≤ 80 370 — 240 — 5 —
T8 D or S ≤ 80 370 — 270 — 8 —
2219 T851 10 < D or S ≤ 50 400 — 275 — 3 —
50 < D or S ≤ 100 395 — 270 — 3 —
4
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ISO 6363-2:2022(E)
Table 1 (continued)
Tensile strength 0,2 % proof Elongation
R stress min.
m
R
p0,2
MPa
a
Alloy Temper Dimensions
MPa
min. max. min. max. A A
50mm
% %
3003 O D or S ≤ 3 95 125 — — — —
3 < D or S ≤ 100 95 125 35 — 22 25
b b
H12 D or S ≤ 10 115 — 80 — 7 —
b b
H14 D or S ≤ 10 135 — 110 — 6 —
b b
H16 D ≤ 15 or S ≤ 5 160 — 130 — 3 —
b b
H18 D or S ≤ 10 180 — 145 — 2 —
3103 O D or S ≤ 50 95 — 35 — 22 19
H14 D or S ≤ 30 130 — 90 — 6 4
H16 D ≤ 15 or S ≤ 5 160 195 130 — 4 3
H18 D or S ≤ 10 160 — 130 — 4 3
5005 O D ≤ 80 or S ≤ 60 100 145 40 — 18 16
H111
H14 D ≤ 40 or S ≤ 10 140 — 110 — 6 4
H18 D ≤ 15 or S ≤ 2 185 — 155 — 4 2
5005A O D ≤ 80 or S ≤ 60 100 145 40 — 18 16
H111
H14 D ≤ 40 or S ≤ 10 140 — 110 — 6 4
H18 D ≤ 15 or S ≤ 2 185 — 155 — 4 2
5019 O D ≤ 80 or S ≤ 60 250 320 110 — 16 14
H111
H12 D ≤ 40 or S ≤ 25 270 350 180 — 8 7
H22
H32
H14 D ≤ 25 or S ≤ 10 300 — 210 — 4 3
H24
H34
5041 O D or S ≤ 25 225 — — — — 20
5050 O D or S ≤ 10 125 180 — — 25 22
H32 D or S ≤ 10 150 — — — — —
H34 D or S ≤ 10 170 — — — — —
H36 D or S ≤ 10 185 — — — — —
H38 D or S ≤ 10 200 — — — — —
5051A O D ≤ 20 — 195 — — — —
H12 D ≤ 18 170 220 — — — —
H14 D ≤ 18 195 245 — — — —
H18 D ≤ 10 245 — — — — —
5
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ISO 6363-2:2022(E)
Table 1 (continued)
Tensile strength 0,2 % proof Elongation
R stress min.
m
R
p0,2
MPa
a
Alloy Temper Dimensions
MPa
min. max. min. max. A A
50mm
% %
5052 O D or S ≤ 3 170 220 — — — —
3 < D or S ≤ 100 170 220 65 — 22 25
H111
H32 3 < D or S ≤ 10 215 255 — — — —
H14 D or S ≤ 3 235 — — — — —
3 < D or S ≤ 30 235 — 180 — 5 —
H34 D or S ≤ 3 235 — — — — —
b
3 < D or S ≤ 30 235 — 180 — 6 —
H16 D or S ≤ 15 250 290 200 — 3 3
H26
H36
H18 D or S ≤ 10 270 — 220 — 2 —
b b
H38 D or S ≤ 10 270 — 220 — 2 —
5056 O D or S ≤ 3 — 315 — — — —
3 < D or S ≤ 100 250 320 110 — 16 20
H12 D or S ≤ 10 300 — — — — —
H32
H34 D or S ≤ 10 345 — — — — —
H38 D or S ≤ 10 380 — — — — —
5083 O D or S ≤ 3 275 355 — — — —
3 < D or S ≤ 100 275 355 110 — 14 14
H111 D or S ≤ 50 270 — 140 — 12 —
H12 D or S ≤ 30 300 — 200 — 4 —
5086 O D or S ≤ 50 240 — 95 — 16 —
H12 D or S ≤ 25 270 — 190 — 4 —
H32 D or S ≤ 25 270 — 190 — 5 —
5154 O D or S ≤ 10 205 285 75 — 20 16
H32 D or S ≤ 10 250 — — — — —
H34 D or S ≤ 10 270 — — — — —
H36 D or S ≤ 10 290 — — — — —
H38 D or S ≤ 10 310 — — — — —
5251 O D ≤ 80 or S ≤ 60 150 200 60 — 17 15
H111
H14 D ≤ 30 or S ≤ 5 200 240 160 — 5 4
H24
H34
H18 D ≤ 20 or S ≤ 3 240 — 200 — 2 2
H28
H38
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ISO 6363-2:2022(E)
Table 1 (continued)
Tensile strength 0,2 % proof Elongation
R stress min.
m
R
p0,2
MPa
a
Alloy Temper Dimensions
MPa
min. max. min. max. A A
50mm
% %
5754 O D or S ≤ 50 180 — 80 — 16 —
H14 D or S ≤ 30 250 — 180 — 4 —
H34 D or S ≤ 30 250 — 180 — 5 —
H18 D or S ≤ 10 280 — 240 — 2 —
H38 D or S ≤ 10 280 — 240 — 3 —
g
6012 T4 D or S ≤ 80 200 — 100 — 10 8
g
T6 D or S ≤ 80 310 — 260 — 8 6
6026 T6 D or S ≤ 80 370 — 300 — 8 —
T8 D or S ≤ 80 345 — 315 — 4 —
T9 D or S ≤ 80 360 — 330 — 4 —
d
6056 H13 D ≤ 18 160 240 — — — —
H18 D ≤ 10 240 — — — — —
i
T39 D < 6 400 — — — — —
i
T39 D ≥ 6 360 — — — — —
T4 D ≤ 20 300 380 — — — —
T6 D ≤ 20 400 — — — — —
i
T89 D < 6 420 — — — — —
g,i
6060 T39 D ≥ 6 220 — — — — —
i
T39 D < 6 270 — — — — —
g
T4 D or S ≤ 80 130 — 65 — 15 13
g
T6 D or S ≤ 80 215 — 160 — 12 10
g,i
T89 D < 6 260 — — — — —
f
6061 O D or S ≤ 3 145 — — — — —
3 < D or S ≤ 100 145 — — — — 18
h
H13 3 ≤ D or S ≤ 10 155 205 — — — —
H18 D ≤ 10 210 — — — — —
g
T39 D < 6 310 — — — — —
6 ≤ D 260 — — — — —
T4 D or S ≤ 3 205 — — — — —
3 < D or S ≤ 100 205 — 110 — 16 18
c
T42 D or S ≤ 3 205 — — — — —
3 < D or S ≤ 100 205 — 95 — — 18
T6 D or S ≤ 3 290 — — — — —
d
3 < D or S ≤ 100 290 — 240 — 9 10
T62
g,i
T89 D < 6 300 — — — — —
i
6063 T39 D ≥ 6 230 — — — — —
g,i
T39 D < 6 280 — — — — —
g
T4 D or S ≤ 80 150 — 75 — 15 13
g
T6 D or S ≤ 80 220 — 190 — 10 8
g
T66 D or S ≤ 80 230 — 195 — 10 8
g,i
T89 D < 6 270 — — — — —
7
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ISO 6363-2:2022(E)
Table 1 (continued)
Tensile strength 0,2 % proof Elongation
R stress min.
m
R
p0,2
MPa
a
Alloy Temper Dimensions
MPa
min. max. min. max. A A
50mm
% %
6063A O D or S ≤ 80 — 140 — — 15 13
H111
g
T4 D or S ≤ 80 150 — 90 — 16 14
g
T6 D or S ≤ 80 230 — 190 — 9 7
g
6065 T6 D ≤ 120 or S ≤ 85 290 — 240 — 10 8
g
T8 D ≤ 120 or S ≤ 85 345 — 315 — 4 3
g
T9 D ≤ 120 or S ≤ 85 360 — 330 — 4 3
6082 O D or S ≤ 80 — 160 — 110 15 —
h
H13 D ≤ 18 165 225 — — — —
H18 D ≤ 10 220 — — — — —
g,i
T39 D < 6 360 — — — — —
i
T39 6 ≤ D 310 — — — — —
T4 D or S ≤ 80 205 — 110 — 14 —
T6 D or S ≤ 80 310 — 255 — 10 —
g
T8 D or S ≤ 80 310 — 260 — 8 —
g,i
T89 D < 6 340 — — — — —
6181 T4 D or S ≤ 50 200 — 100 — 15 —
T6 D or S ≤ 50 280 — 240 — 8 —
6262 T6 D or S ≤ 100 290 — 240 — 8 7
g
T8 D or S ≤ 50 345 — 315 — 4 3
T9 D or S ≤ 50 360 — 330 — 4 5
50 < D or S ≤ 80 345 — 315 — 4 —
g
6262A T6 D ≤ 120 or S ≤ 85 290 — 240 — 10 8
g
T8 D ≤ 120 or S ≤ 85 345 — 315 — 4 3
g
T9 D ≤ 120 or S ≤ 85 360 — 330 — 4 3
7020 T5 D or S ≤ 50 350 — 280 — 10 —
T6
g
7022 T6 D or S ≤ 80 460 — 380 — 8 6
7049A T6 D ≤ 80 590 — 500 — 7 —
f
7075 O 3 ≤ D or S ≤ 100 — 275 — — — 10
h
H13 D ≤ 18 230 310 — — — —
H18 D ≤ 10 285 — — — — —
T6 3 ≤ D or S ≤ 100 520 — 460 — 6 7
d
T62
T651
j
T73 D or S ≤ 100 470 — 385 — 9 7
8
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ISO 6363-2:2022(E)
Table 1 (continued)
Tensile strength 0,2 % proof Elongation
R stress min.
m
R
p0,2
MPa
a
Alloy Temper Dimensions
MPa
min. max. min. max. A A
50mm
% %
a
  D (mm) = diameter for round bar.
  S (mm) = width across flats for square and hexagonal bar, thickness for rectangular bar.
b
  Guaranteed values agreed upon between the supplier and the purchaser where requested by the purchaser.
c
  The mechanical properties of temper grade T42 shall be applied only where the material of temper grade O
...