SIST EN 485-2:2009

SLOVENSKI STANDARD
SIST EN 485-2:2009
01-januar-2009
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SIST EN 485-2:2007
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Aluminium and aluminium alloys - Sheet, strip and plate - Part 2: Mechanical properties
Aluminium und Aluminiumlegierungen - Bänder, Bleche und Platten - Teil 2:
Mechanische Eigenschaften
Aluminium et alliages d'aluminium - Tôles, bandes et tôles épaisses - Partie 2 :
Caractéristiques mécaniques
Ta slovenski standard je istoveten z: EN 485-2:2008
ICS:
77.150.10 Aluminijski izdelki Aluminium products
SIST EN 485-2:2009 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 485-2:2009

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SIST EN 485-2:2009
EUROPEAN STANDARD
EN 485-2
NORME EUROPÉENNE
EUROPÄISCHE NORM
October 2008
ICS 77.150.10 Supersedes EN 485-2:2007
English Version
Aluminium and aluminium alloys - Sheet, strip and plate - Part 2:
Mechanical properties
Aluminium et alliages d'aluminium - Tôles, bandes et tôles Aluminium und Aluminiumlegierungen - Bänder, Bleche
épaisses - Partie 2 : Caractéristiques mécaniques und Platten - Teil 2: Mechanische Eigenschaften
This European Standard was approved by CEN on 29 August 2008.
CEN members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European
Standard the status of a national standard without any alteration. Up-to-date lists and bibliographical references concerning such national
standards may be obtained on application to the CEN Management Centre or to any CEN member.
This European Standard exists in three official versions (English, French, German). A version in any other language made by translation
under the responsibility of a CEN member into its own language and notified to the CEN Management Centre has the same status as the
official versions.
CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Cyprus, Czech Republic, Denmark, Estonia, Finland,
France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,
Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and United Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION
EUROPÄISCHES KOMITEE FÜR NORMUNG
Management Centre: rue de Stassart, 36  B-1050 Brussels
© 2008 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 485-2:2008: E
worldwide for CEN national Members.

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Contents Page
Foreword.3
1 Scope .4
2 Normative references .4
3 Requirements.4
4 List of alloys with mechanical property limits.4
4.1 General.4
4.2 Elongation .5
4.3 List of alloys and their mechanical properties .5
Annex A (normative) Rules for rounding.83
Annex B (informative) Explanation of temper designations used in Tables 1 to 46 based on
definitions of EN 515 .84
Bibliography .86

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Foreword
This document (EN 485-2:2008) has been prepared by Technical Committee CEN/TC 132 “Aluminium and
aluminium alloys”, the secretariat of which is held by AFNOR.
This European Standard shall be given the status of a national standard, either by publication of an identical
text or by endorsement, at the latest by April 2009, and conflicting national standards shall be withdrawn at the
latest by April 2009.
Attention is drawn to the possibility that some of the elements of this document may be the subject of patent
rights. CEN [and/or CENELEC] shall not be held responsible for identifying any or all such patent rights.
CEN/TC 132 affirms it is its policy that in the case when a patentee refuses to grant licences on standardised
standard products under reasonable and not discriminatory conditions, then this product shall be removed
from the corresponding standard.
This document supersedes EN 485-2:2007.
Within its programme of work, Technical Committee CEN/TC 132 entrusted CEN/TC 132/WG 7 "Sheets,
strips and plates" to revise EN 485-2:2007.
EN 485 comprises the following parts under the general tittle, "Aluminium and aluminium alloys — Sheet, strip
and plate":
 Part 1: Technical conditions for inspection and delivery
 Part 2: Mechanical properties
 Part 3: Tolerances on dimensions and form for hot-rolled products
 Part 4: Tolerances on shape and dimensions for cold-rolled products
The following changes have been made:
 In all tables, the tempers have been separated in rows.
 Table 25: Values for temper H112 have been modified.
According to the CEN/CENELEC Internal Regulations, the national standards organizations of the following
countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Cyprus, Czech
Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain,
Sweden, Switzerland and the United Kingdom.

3

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SIST EN 485-2:2009
EN 485-2:2008 (E)
1 Scope
This European Standard specifies the mechanical properties of wrought aluminium and wrought aluminium
alloy sheet, strip and plate for general engineering applications.
It does not apply to semi-finished rolled products in coiled form to be subjected to further rolling (reroll stock)
or to special products such as corrugated, embossed, painted, sheets and strips or to special applications
such as aerospace, can stock, finstock, for which mechanical properties are specified in separate European
Standards.
The chemical composition limits of the alloys are specified in EN 573-3.
Temper designations are defined in Annex B, in compliance with the provisions of EN 515.
2 Normative references
The following referenced documents are indispensable for the application 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.
EN 485-1, Aluminium and aluminium alloys — Sheet, strip and plate — Part 1: Technical conditions for
inspection and delivery
EN 10002-1, Metallic materials — Tensile testing — Part 1: Method of test at ambient temperature
ASTM G66, Standard Test Method for Visual Assessment of Exfoliation Corrosion Susceptibility of 5xxx
Series Aluminium Alloys (ASSET test)
ASTM G67, Standard Test Method for Determining the Susceptibility to Intergranular Corrosion of 5xxx Series
Aluminium Alloys by Mass Loss After Exposure to Nitric Acid (NAMLT test)
3 Requirements
The mechanical properties shall be in conformity with those specified in Clause 4 or those agreed upon
between purchaser and manufacturer and stated on the order document.
4 List of alloys with mechanical property limits
4.1 General
Tables 1 to 46 contain mechanical property limits values obtained by tensile testing according to EN 10002-1
after sampling and after sample preparation according to EN 485-1.
They also contain values of bend radius and hardness following sampling and test methods as described in
EN 485-1. These values are for information only.
For some alloys they contain provisions related to intergranular corrosion, exfoliation corrosion or stress
corrosion testing, see also EN 485-1.
4

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SIST EN 485-2:2009
EN 485-2:2008 (E)
4.2 Elongation
The A value is the elongation measured over a gauge length of 50 mm and expressed in percent.
50mm
The A value for elongation is the elongation measured over a gauge length of 5,65 S (where S is the initial
o o
cross-sectional area of the test-piece), and expressed in percent.
4.3 List of alloys and their mechanical properties
Page
Table 1 — Aluminium EN AW-1050A [Al 99,5] 7
Table 2 — Aluminium EN AW-1070A [Al 99,7] 9
Table 3 — Aluminium EN AW-1080A [Al 99,8(A)] 11
Table 4 — Aluminium EN AW-1200 [Al 99,0] 13
Table 5 — Alloy EN AW-2014 [Al Cu4SiMg] 15
Table 6 — Alloy EN AW-2014A [Al Cu4SiMg(A)] 17
Table 7 — Alloy EN AW-2017A [Al Cu4MgSi(A)] 19
Table 8 — Alloy EN AW-2024 [Al Cu4Mg1] 20
Table 9 — Alloy EN AW-2618A [Al Cu2Mg1,5Ni] 22
Table 10 — Alloy EN AW-3003 [Al Mn1Cu] 23
Table 11 — Alloy EN AW-3004 [Al Mn1Mg1] 25
Table 12 — Alloy EN AW-3005 [Al Mn1Mg0,5] 27
Table 13 — Alloy EN AW-3103 [Al Mn1] 29
Table 14 — Alloy EN AW-3105 [Al Mn0,5Mg0,5] 31
Table 15 — Alloy EN AW-4006 [Al Si1Fe] 32
Table 16 — Alloy EN AW-4007 [Al Si1,5Mn] 33
Table 17 — Alloy EN AW-4015 [Al Si2Mn] 34
Table 18— Alloy EN AW-5005 [Al Mg1(B)], alloy EN AW-5005A [Al Mg1(C)] 35
Table 19 — Alloy EN AW-5010 [ AlMg 0,5Mn] 37
Table 20 — Alloy EN AW-5026 [AI Mg4,5 MnSiFe] 38
Table 21 — Alloy EN AW-5040 [Al Mg1,5Mn] 38
Table 22 — Alloy EN AW-5049 [Al Mg2Mn0,8] 39
Table 23 — Alloy EN AW-5050 [Al Mg1,5(C)] 41
5

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 24 — Alloy EN AW-5052 [Al Mg2,5] 43
Table 25 — Alloy EN AW-5059 [Al Mg5,5MnZnZr] 45
Table 26 — Alloy EN AW-5070 [Al Mg4MnZn] 46
Table 27 — Alloy EN AW-5083 [Al Mg4,5Mn0,7] 47
Table 28 — Alloy EN AW-5086 [Al Mg4] 50
Table 29 — Alloy EN AW-5088 [AlMg5Mn0,4] 52
Table 30 — Alloy EN AW-5154A [Al Mg3,5(A)] 53
Table 31 — Alloy EN AW-5182 [Al Mg4,5Mn0,4] 56
Table 32 — Alloy EN AW-5251 [Al Mg2Mn0,3] 57
Table 33 — Alloy EN AW-5383 [Al Mg4,5Mn0,9] 60
Table 34 — Alloy EN AW-5449 [Al Mg2Mn0,8(B)] 62
Table 35 — Alloy EN AW-5454 [Al Mg3Mn] 63
Table 36 — Alloy EN AW-5754 [Al Mg3] 66
Table 37 — Alloy EN AW-6016 [Al Si1,2Mg0,4] 68
Table 38 — Alloy EN AW-6025 [Al Mg2,5SiMnCu] 68
Table 39 — Alloy EN AW-6061 [Al Mg1SiCu] 69
Table 40 — Alloy EN AW-6082 [Al Si1MgMn] 71
Table 41 — Alloy EN AW-7010 [Al Zn6MgCu] 73
Table 42 — Alloy EN AW-7020 [Al Zn4,5Mg1] 76
Table 43 — Alloy EN AW-7021 [Al Zn5,5Mg1,5] 78
Table 44 — Alloy EN AW-7022 [Al Zn5Mg3Cu] 78
Table 45 — Alloy EN AW-7075 [Al Zn5,5MgCu] 79
Table 46 — Alloy EN AW-8011A [Al FeSi(A)] 82

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 1 — Aluminium EN AW-1050A [Al 99,5]
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.
R
 R
p0,2
m
a

mm MPa MPa %
HBW
over up to min. max. min. max. A A 180° 90°
50 mm
a
150,0 60
F ≥ 2,5
O 0,2 0,5 65 95 20 20 0 t 0 t 20
0,5 1,5 65 95 20 22 0 t 0 t 20
1,5 3,0 65 95 20 26 0 t 0 t 20
3,0 6,0 65 95 20 29 0,5 t 0,5 t 20
6,0 12,5 65 95 20 35 1,0 t 1,0 t 20
12,5 80,0 65 95 20  32  20
H111 0,2 0,5 65 95 20 20 0 t 0 t 20
0 t 0 t
0,5 1,5 65 95 20 22 20
1,5 3,0 65 95 20 26 0 t 0 t 20
0,5 t 0,5 t
3,0 6,0 65 95 20 29 20
6,0 12,5 65 95 20 35 1,0 t 1,0 t 20
12,5 80,0 65 95 20  32  20
H112 ≥ 6,0 12,5 75 30 20  23
12,5 80,0 70 25  20  22
H12 0,2 0,5 85 125 65 2 0,5 t 0 t 28
0,5 t 0 t
0,5 1,5 85 125 65 4 28
1,5 3,0 85 125 65 5 0,5 t 0,5 t 28
1,0 t 1,0 t
3,0 6,0 85 125 65 7 28
6,0 12,5 85 125 65 9  2,0 t 28
12,5 40,0 85 125 65  9  28
H14 0,2 0,5 105 145 85 2 1,0 t 0 t 34
0,5 1,5 105 145 85 2 1,0 t 0,5 t 34
1,5 3,0 105 145 85 4 1,0 t 1,0 t 34
3,0 6,0 105 145 85 5  1,5 t 34
6,0 12,5 105 145 85 6  2,5 t 34
12,5 25,0 105 145 85  6  34
0,5 t
H16 0,2 0,5 120 160 100 1  39
0,5 1,5 120 160 100 2  1,0 t 39
1,5 t
1,5 4,0 120 160 100 3  39
H18 0,2 0,5 135 120 1  1,0 t 42
0,5 1,5 140 120 2  2,0 t 42
1,5 3,0 140 120 2  3,0 t 42
H19 0,2 0,5 155 140 1  45
0,5 1,5 150 130 1  45
1,5 3,0 150 130 1  45

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 1 (continued)
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.
R
 R
p0,2
m
a

mm MPa MPa %
HBW
over up to min. max. min. max. A A 180° 90°
50 mm
H22 0,2 0,5 85 125 55 4 0,5 t 0 t 27
0,5 t 0 t
0,5 1,5 85 125 55 5 27
1,5 3,0 85 125 55 6 0,5 t 0,5 t 27
1,0 t 1,0 t
3,0 6,0 85 125 55 11 27
6,0 12,5 85 125 55 12  2,0 t 27
H24 0,2 0,5 105 145 75 3 1,0 t 0 t 33
0,5 1,5 105 145 75 4 1,0 t 0,5 t 33
1,5 3,0 105 145 75 5 1,0 t 1,0 t 33
3,0 6,0 105 145 75 8 1,5 t 1,5 t 33
6,0 12,5 105 145 75 8  2,5 t 33
0,5 t
H26 0,2 0,5 120 160 90 2  38
0,5 1,5 120 160 90 3  1,0 t 38
1,5 t
1,5 4,0 120 160 90 4  38
H28 0,2 0,5 140 110 2  1,0 t 41
0,5 1,5 140 110 2  2,0 t 41
1,5 3,0 140 110 3  3,0 t 41
a
For information only.

8

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 2 — Aluminium EN AW-1070A [Al 99,7]
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
over up to min. max. min. max. A A 180° 90°
50 mm
a
25,0 60
F ≥ 2,5
O 0,2 0,5 60 90 15 23 0 t 0 t 18
0,5 1,5 60 90 15 25 0 t 0 t 18
1,5 3,0 60 90 15 29 0 t 0 t 18
3,0 6,0 60 90 15 32 0,5 t 0,5 t 18
6,0 12,5 60 90 15 35 0,5 t 0,5 t 18
12,5 25,0 60 90 15  32  18
H111 0,2 0,5 60 90 15 23 0 t 0 t 18
0 t 0 t
0,5 1,5 60 90 15 25 18
1,5 3,0 60 90 15 29 0 t 0 t 18
0,5 t 0,5 t
3,0 6,0 60 90 15 32 18
6,0 12,5 60 90 15 35 0,5 t 0,5 t 18
12,5 25,0 60 90 15  32  18
H112 ≥ 6,0 12,5 70 20 20
12,5 25,0 70   20
H12 0,2 0,5 80 120 55 5 0,5 t 0 t 26
0,5 t 0 t
0,5 1,5 80 120 55 6 26
1,5 3,0 80 120 55 7 0,5 t 0,5 t 26
1,0 t
3,0 6,0 80 120 55 9  26
6,0 12,5 80 120 55 12  2,0 t 26
H14 0,2 0,5 100 140 70 4 0,5 t 0 t 32
0,5 1,5 100 140 70 4 0,5 t 0,5 t 32
1,5 3,0 100 140 70 5 1,0 t 1,0 t 32
3,0 6,0 100 140 70 6  1,5 t 32
6,0 12,5 100 140 70 7  2,5 t 32
1,0 t 0,5 t
H16 0,2 0,5 110 150 90 2 36
0,5 1,5 110 150 90 2 1,0 t 1,0 t 36
1,0 t 1,0 t
1,5 4,0 110 150 90 3 36
H18 0,2 0,5 125 105 2  1,0 t 40
0,5 1,5 125 105 2  2,0 t 40
1,5 3,0 125 105 2  2,5 t 40
H22 0,2 0,5 80 120 50 7 0,5 t 0 t 26
0,5 t 0 t
0,5 1,5 80 120 50 8 26
1,5 3,0 80 120 50 10 0,5 t 0,5 t 26
1,0 t
3,0 6,0 80 120 50 12  26
6,0 12,5 80 120 50 15  2,0 t 26
9

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 2 (continued)
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
H24 0,2 0,5 100 140 60 5 0,5 t 0 t 31
0,5 1,5 100 140 60 6 0,5 t 0,5 t 31
1,0 t 1,0 t
1,5 3,0 100 140 60 7 31
3,0 6,0 100 140 60 9  1,5 t 31
2,5 t
6,0 12,5 100 140 60 11  31
0,5 t
H26 0,2 0,5 110 150 80 3  35
0,5 1,5 110 150 80 3  1,0 t 35
1,0 t
1,5 4,0 110 150 80 4  35
a
For information only.
10

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 3 — Aluminium EN AW-1080A [Al 99,8(A)]
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

 R R
m p0,2
a

mm MPa MPa %
HBW
over up to min. max. min. max. A A 180° 90°
50 mm
a
25,0 60
F ≥ 2,5
0 t 0 t
O 0,2 0,5 60 90 15 26 18
0,5 1,5 60 90 15 28 0 t 0 t 18
0 t 0 t
1,5 3,0 60 90 15 31 18
3,0 6,0 60 90 15 35 0,5 t 0,5 t 18
0,5 t 0,5 t
6,0 12,5 60 90 15 35 18
H111 0,2 0,5 60 90 15 26 0 t 0 t 18
0,5 1,5 60 90 15 28 0 t 0 t 18
1,5 3,0 60 90 15 31 0 t 0 t 18
3,0 6,0 60 90 15 35 0,5 t 0,5 t 18
6,0 12,5 60 90 15 35 0,5 t 0,5 t 18
H112 12,5 70  20
≥ 6,0
12,5 25,0 70   20
H12 0,2 0,5 80 120 55 5 0,5 t 0 t 26
0,5 1,5 80 120 55 6 0,5 t 0 t 26
1,5 3,0 80 120 55 7 0,5 t 0,5 t 26
3,0 6,0 80 120 55 9  1,0 t 26
6,0 12,5 80 120 55 12  2,0 t 26
0,5 t 0 t
H14 0,2 0,5 100 140 70 4 32
0,5 1,5 100 140 70 4 0,5 t 0,5 t 32
1,0 t 1,0 t
1,5 3,0 100 140 70 5 32
3,0 6,0 100 140 70 6  1,5 t 32
2,5 t
6,0 12,5 100 140 70 7  32
H16 0,2 0,5 110 150 90 2 1,0 t 0,5 t 36
0,5 1,5 110 150 90 2 1,0 t 1,0 t 36
1,5 4,0 110 150 90 3 1,0 t 1,0 t 36
H18 0,2 0,5 125 105 2  1,0 t 40
2,0 t
0,5 1,5 125 105 2  40
1,5 3,0 125 105 2  2,5 t 40
H22 0,2 0,5 80 120 50 8 0,5 t 0 t 26
0,5 1,5 80 120 50 9 0,5 t 0 t 26
1,5 3,0 80 120 50 11 0,5 t 0,5 t 26
3,0 6,0 80 120 50 13  1,0 t 26
6,0 12,5 80 120 50 15  2,0 t 26



11

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 3 (continued)
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

 R R
m p0,2
a

mm MPa MPa %
HBW
H24 0,2 0,5 100 140 60 5 0,5 t 0 t 31
0,5 1,5 100 140 60 6 0,5 t 0,5 t 31
1,5 3,0 100 140 60 7 1,0 t 1,0 t 31
3,0 6,0 100 140 60 9  1,5 t 31
2,5 t
6,0 12,5 100 140 60 11  31
H26 0,2 0,5 110 150 80 3  0,5 t 35
0,5 1,5 110 150 80 3  1,0 t 35
1,5 4,0 110 150 80 4  1,0 t 35
a
For information only.

12

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 4 — Aluminium EN AW-1200 [Al 99,0]
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
A A
over up to min. max. min. max. 180° 90°
50 mm
a
150,0 75
F ≥ 2,5
O 0,2 0,5 75 105 25 19 0 t 0 t 23
0,5 1,5 75 105 25 21 0 t 0 t 23
1,5 3,0 75 105 25 24 0 t 0 t 23
3,0 6,0 75 105 25 28 0,5 t 0,5 t 23
6,0 12,5 75 105 25 33 1,0 t 1,0 t 23
12,5 80,0 75 105 25  30  23
H111 0,2 0,5 75 105 25 19 0 t 0 t 23
0 t 0 t
0,5 1,5 75 105 25 21 23
1,5 3,0 75 105 25 24 0 t 0 t 23
0,5 t 0,5 t
3,0 6,0 75 105 25 28 23
6,0 12,5 75 105 25 33 1,0 t 1,0 t 23
12,5 80,0 75 105 25  30  23
H112 ≥ 6,0 12,5 85 35 16  26
12,5 80,0 80 30  16  24
H12 0,2 0,5 95 135 75 2 0,5 t 0 t 31
0,5 1,5 95 135 75 4 0,5 t 0 t 31
1,5 3,0 95 135 75 5 0,5 t 0,5 t 31
3,0 6,0 95 135 75 6 1,0 t 1,0 t 31
6,0 12,5 95 135 75 8  2,0 t 31
12,5 40,0 95 135 75  8  31
H14 0,2 0,5 105 155 95 1 1,0 t 0 t 37
0,5 1,5 115 155 95 3 1,0 t 0,5 t 37
1,5 3,0 115 155 95 4 1,0 t 1,0 t 37
3,0 6,0 115 155 95 5 1,5 t 1,5 t 37
6,0 12,5 115 155 90 6  2,5 t 37
12,5 25,0 115 155 90  6  37
0,5 t
H16 0,2 0,5 120 170 110 1  42
0,5 1,5 130 170 115 2  1,0 t 42
1,5 4,0 130 170 115 3  1,5 t 42
H18 0,2 0,5 150 130 1  1,0 t 45
0,5 1,5 150 130 2  2,0 t 45
1,5 3,0 150 130 2  3,0 t 45
13

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 4 (continued)
a
Temper Specified Tensile Yield strength Elongation
Hardness
Bend radius
thickness strength
min.
R R
m p0,2
a
mm MPa MPa %
HBW
over up to min. max. min. max. A A 180° 90°
50 mm
H19 0,2 0,5 160 140 1  48
0,5 1,5 160 140 1  48
1,5 3,0 160 140 1  48
H22 0,2 0,5 95 135 65 4 0,5 t 0 t 30
0,5 1,5 95 135 65 5 0,5 t 0 t 30
1,5 3,0 95 135 65 6 0,5 t 0,5 t 30
3,0 6,0 95 135 65 10 1,0 t 1,0 t 30
6,0 12,5 95 135 65 10  2,0 t 30
H24 0,2 0,5 115 155 90 3 1,0 t 0 t 37
0,5 1,5 115 155 90 4 1,0 t 0,5 t 37
1,5 3,0 115 155 90 5 1,0 t 1,0 t 37
3,0 6,0 115 155 90 7  1,5 t 37
6,0 12,5 115 155 85 9  2,5 t 36
0,5 t
H26 0,2 0,5 130 170 105 2  41
0,5 1,5 130 170 105 3  1,0 t 41
1,5 4,0 130 170 105 4  1,5 t 41
a
For information only.

14

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SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 5 — Alloy EN AW-2014 [Al Cu4SiMg]
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
A A
over up to min. max. min. max. 50 mm 180° 90°
O ≥ 0,4 1,5 220 140 12 0,5 t 0 t 55
1,5 3,0 220 140 13 1,0 t 1,0 t 55
3,0 6,0 220 140 16  1,5 t 55
6,0 9,0 220 140 16  2,5 t 55
9,0 12,5 220 140 16  4,0 t 55
12,5 25,0 220  10  55
T3 1,5 395 245 14  111
≥ 0,4
1,5 6,0 400 245 14  112
b b
T4 1,5 395 240 14 110
≥ 0,4 3,0 t 3,0 t
b b
1,5 6,0 395 240 14 110
5,0 t 5,0 t
b
6,0 12,5 400 250 14  112
8,0 t
12,5 40,0 400 250  10  112
40,0 100,0 395 250  7  111
b b
T451 ≥ 0,4 1,5 395 240 14 3,0 t 3,0 t 110
b b
1,5 6,0 395 240 14 110
5,0 t 5,0 t
b
6,0 12,5 400 250 14  8,0 t 112
12,5 40,0 400 250  10  112
40,0 100,0 395 250  7  111
T42 ≥ 0,4 6,0 395 230 14  110
6,0 12,5 400 235 14  111
12,5 25,0 400 235  12  111
b
T6 ≥ 0,4 1,5 440 390 6  5,0 t 133
b
1,5 6,0 440 390 7  133
7,0 t
b
6,0 12,5 450 395 7  10 t 135
12,5 40,0 460 400  6  138
40,0 60,0 450 390  5  135
60,0 80,0 435 380  4  131
80,0 100,0 420 360  4  126
100,0 125,0 410 350  4  123
125,0 160,0 390 340  2

15

---------------------- Page: 17 ----------------------

SIST EN 485-2:2009
EN 485-2:2008 (E)

Table 5 (continued)
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
over up to min. max. min. max. A A 180° 90°
50 mm
b
T651 1,5 440 390 6  133
≥ 0,4 5,0 t
b
1,5 6,0 440 390 7  133
7,0 t
b
6,0 12,5 450 395 7  135
10 t
12,5 40,0 460 400  6  138
40,0 60,0 450 390  5  135
60,0 80,0 435 380  4  131
80,0 100,0 420 360  4  126
100,0 125,0 410 350  4  123
125,0 160,0 390 340  2
T62 12,5 440 390 7  133
≥ 0,4
12,5 25,0 450 395  6  135
NOTE   Whenever a new application of this alloy is contemplated, and if this application involves special properties such as corrosion
resistance, toughness, fatigue strength, it is strongly recommended that the user consult the producer in order to make a precise and
appropriate selection of the material.
a
For information only.
b
Appreciably smaller cold bend radii can be achieved immediately after quenching.

16

---------------------- Page: 18 ----------------------

SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 6 — Alloy EN AW-2014A [Al Cu4SiMg(A)]
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
A A
over up to min. max. min. max. 50 mm 180° 90°
O ≥ 0,2 0,5 235 110  1,0 t 55
0,5 1,5 235 110 14  2,0 t 55
1,5 3,0 235 110 16  2,0 t 55
3,0 6,0 235 110 16  2,0 t 55
b
T4 0,5 400 225   110
≥ 0,2 3,0 t
b
0,5 1,5 400 225 13  3,0 t 110
b
1,5 6,0 400 225 14  110
5,0 t
6,0 12,5 400 250 14
12,5 25,0 400 250  12
25,0 40,0 400 250  10
40,0 80,0 395 250  7
b
T451 0,5 400 225   110
≥ 0,2 3,0 t
b
0,5 1,5 400 225 13  110
3,0 t
b
1,5 6,0 400 225 14  110
5,0 t
6,0 12,5 400 250 14
12,5 25,0 400 250  12
25,0 40,0 400 250  10
40,0 80,0 395 250  7
b
T6 ≥ 0,2 0,5 440 380   5,0 t 150
b
0,5 1,5 440 380 6  150
5,0 t
b
1,5 3,0 440 380 7  6,0 t 150
b
3,0 6,0 440 380 8  150
6,0 t
6,0 12,5 460 410 8
12,5 25,0 460 410  6
25,0 40,0 450 400  5
40,0 60,0 430 390  5
60,0 90,0 430 390  4
90,0 115,0 420 370  4
115,0 140,0 410 350  4




17

---------------------- Page: 19 ----------------------

SIST EN 485-2:2009
EN 485-2:2008 (E)

Table 6 (continued)
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
over up to min. max. min. max. A A 180° 90°
50 mm
b
T651 0,5 440 380   150
≥ 0,2 5,0 t
b
0,5 1,5 440 380 6  150
5,0 t
b
1,5 3,0 440 380 7  150
6,0 t
b
3,0 6,0 440 380 8  150
6,0 t
6,0 12,5 460 410 8
12,5 25,0 460 410  6
25,0 40,0 450 400  5
40,0 60,0 430 390  5
60,0 90,0 430 390  4
90,0 115,0 420 370  4
115,0 140,0 410 350  4
NOTE   Whenever a new application of this alloy is contemplated, and if this application involves special properties such as corrosion
resistance, toughness, fatigue strength, it is strongly recommended that the user consult the producer in order to make a precise and
appropriate selection of the material.
a
For information only.
b
Appreciably smaller cold bend radii can be achieved immediately after quenching.

18

---------------------- Page: 20 ----------------------

SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 7 — Alloy EN AW-2017A [Al Cu4MgSi(A)]
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.
R R
m p0,2
a
mm MPa MPa %
HBW

over up to min. max. min. max. A A 180° 90°
50 mm
O 1,5 225 145 12 0,5 t 0 t 55
≥ 0,4
1,5 3,0 225 145 14 1,0 t 1,0 t 55
3,0 6,0 225 145 13  1,5 t 55
6,0 9,0 225 145 13  2,5 t 55
9,0 12,5 225 145 13  4,0 t 55
12,5 25,0 225 145 12  55
b b
T4 ≥ 0,4 1,5 390 245 14 3,0 t 3,0 t 110
b b
1,5 6,0 390 245 15 110
5,0 t 5,0 t
b
6,0 12,5 390 260 13  111
8,0 t
12,5 40,0 390 250  12  110
40,0 60,0 385 245  12  108
60,0 80,0 370 240  7
80,0 120,0 360 240  6  105
120,0 150,0 350 240  4  101
150,0 180,0 330 220  2
180,0 200,0 300 200  2
b b
T451 1,5 390 245 14 110
≥ 0,4 3,0 t 3,0 t
b b
1,5 6,0 390 245 15 110
5,0 t 5,0 t
b
6,0 12,5 390 260 13  8,0 t 111
12,5 40,0 390 250  12  110
40,0 60,0 385 245  12  108
60,0 80,0 370 240  7
80,0 120,0 360 240  6  105
120,0 150,0 350 240  4  101
150,0 180,0 330 220  2
180,0 200,0 300 200  2
T452 150,0 180,0 330 220  2
180,0 200,0 300 200  2
T42 3,0 390 235 14  109
≥ 0,4
3,0 12,5 390 235 15  109
12,5 25,0 390 235  12  109
NOTE   Whenever a new application of this alloy is contemplated, and if this application involves special properties such as corrosion
resistance, toughness, fatigue strength, it is strongly recommended that the user consult the producer in order to make a precise and
appropriate selection of the material.
a
For information only.
b
Appreciably smaller cold bend radii can be achieved immediately after quenching.
19

---------------------- Page: 21 ----------------------

SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 8 — Alloy EN AW-2024 [Al Cu4Mg1]
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
A A
over up to min. max. min. max. 50 mm 180° 90°
O ≥ 0,4 1,5 220 140 12 0,5 t 0 t 55
1,5 3,0 220 140 13 2,0 t 1,0 t 55
3,0 6,0 220 140 13 3,0 t 1,5 t 55
6,0 9,0 220 140 13  2,5 t 55
9,0 12,5 220 140 13  4,0 t 55
12,5 25,0 220  11  55
T4 1,5 425 275 12 4,0 t 120
≥ 0,4
1,5 6,0 425 275 14 5,0 t 120
b b
T3 1,5 435 290 12 123
≥ 0,4 4,0 t 4,0 t
b b
1,5 3,0 435 290 14 123
4,0 t 4,0 t
b b
3,0 6,0 440 290 14 124
5,0 t 5,0 t
b
6,0 12,5 440 290 13  124
8,0 t
12,5 40,0 430 290  11  122
40,0 80,0 420 290  8  120
80,0 100,0 400 285  7  115
100,0 120,0 380 270  5  110
120,0 150,0 360 250  5  104
b b
T351 ≥ 0,4 1,5 435 290 12 4,0 t 4,0 t 123
b b
1,5 3,0 435 290 14 123
4,0 t 4,0 t
b b
3,0 6,0 440 290 14 5,0 t 5,0 t 124
b
6,0 12,5 440 290 13  124
8,0 t
12,5 40,0 430 290  11  122
40,0 80,0 420 290  8  120
80,0 100,0 400 285  7  115
100,0 120,0 380 270  5  110
120,0 150,0 360 250  5  104
T42 ≥ 0,4 6,0 425 260 15  119
6,0 12,5 425 260 12  119
12,5 25,0 420 260  8  118
T8 ≥ 0,4 1,5 460 400 5  138
1,5 6,0 460 400 6  138
6,0 12,5 460 400 5  138
12,5 25,0 455 400  4  137
25,0 40,0 455 395  4  136
20

---------------------- Page: 22 ----------------------

SIST EN 485-2:2009
EN 485-2:2008 (E)
Table 8 (continued)
a
Temper Specified Tensile Yield strength Elongation Hardness
Bend radius
thickness strength
min.

R R
m p0,2
a
mm MPa MPa %
HBW
A A
over up to min. max. min. max. 50 mm 180° 90°
T851 ≥ 0,4 1,5 460 400 5  138
1,5 6,0 460 400 6  138
6,0 12,5 460 400 5  138
12,5 25,0 455 400  4
...