EN 754-2:2013 - Aluminium and aluminium alloys

Aluminium and aluminium alloys - Cold drawn rod/bar and tube - Part 2: Mechanical properties

This European Standard specifies the mechanical property limits resulting from tensile testing applicable to aluminium and aluminium alloy cold drawn rod/bar and tube.
Technical conditions for inspection and delivery, including product and testing requirements, are specified in EN 754-1. Temper designations are defined in EN 515. The chemical composition limits for these materials are given in EN 573-3.

Aluminium und Aluminiumlegierungen - Gezogene Stangen und Rohre - Teil 2: Mechanische Eigenschaften

Diese Europäische Norm legt die Grenzwerte für die mechanischen Eigenschaften von gezogenen Stangen und Rohren aus Aluminium und Aluminiumlegierungen fest.
Die technischen Lieferbedingungen, einschließlich Erzeugnis und Prüfanforderungen, sind in EN 754 1 festgelegt. Die Bezeichnungen der Werkstoffzustände sind in EN 515 definiert. In EN 573 3 sind die Grenzen der chemischen Zusammensetzung für diese Werkstoffe angegeben.

Aluminium et alliages d'aluminium - Barres et tubes étirés - Partie 2: Caractéristiques mécaniques

La présente Norme européenne spécifie les limites des caractéristiques mécaniques provenant de l’essai de traction applicables aux barres et tubes étirés en aluminium et alliages d’aluminium.
Les conditions techniques de contrôle et de livraison, y compris les produits et les exigences d’essai, sont spécifiées dans l’EN 754-1. La désignation des états métallurgiques sont définis dans l’EN 515. Les limites de composition chimique de ces matériaux sont données dans l’EN 573-3.

Aluminij in aluminijeve zlitine - Hladno vlečene palice/drogovi in cevi - 2. del: Mehanske lastnosti

General Information

Status: Withdrawn
Publication Date: 01-Oct-2013
Withdrawal Date: 13-Apr-2025

ICS: 77.150.10 - Aluminium products

Technical Committee: CEN/TC 132 - Aluminium and aluminium alloys
Drafting Committee: CEN/TC 132 - Aluminium and aluminium alloys

Current Stage: 9960 - Withdrawal effective - Withdrawal
Start Date: 09-Nov-2016
Completion Date: 14-Apr-2025

Ref Project: SIST EN 754-2:2014 - Aluminium and aluminium alloys - Cold drawn rod/bar and tube - Part 2: Mechanical properties

Relations

Replaces: EN 754-2:2008 - Aluminium and aluminium alloys - Cold drawn rod/bar and tube - Part 2: Mechanical properties
Effective Date: 09-Oct-2013

Replaced By: EN 754-2:2016 - Aluminium and aluminium alloys - Cold drawn rod/bar and tube - Part 2: Mechanical properties
Effective Date: 08-Jun-2022

Standard

EN 754-2:2014

English language

45 pages

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Frequently Asked Questions

What is EN 754-2:2013?

EN 754-2:2013 is a standard published by the European Committee for Standardization (CEN). Its full title is "Aluminium and aluminium alloys - Cold drawn rod/bar and tube - Part 2: Mechanical properties". This standard covers: This European Standard specifies the mechanical property limits resulting from tensile testing applicable to aluminium and aluminium alloy cold drawn rod/bar and tube. Technical conditions for inspection and delivery, including product and testing requirements, are specified in EN 754-1. Temper designations are defined in EN 515. The chemical composition limits for these materials are given in EN 573-3.

What is the scope of EN 754-2:2013?

This European Standard specifies the mechanical property limits resulting from tensile testing applicable to aluminium and aluminium alloy cold drawn rod/bar and tube. Technical conditions for inspection and delivery, including product and testing requirements, are specified in EN 754-1. Temper designations are defined in EN 515. The chemical composition limits for these materials are given in EN 573-3.

What ICS categories does EN 754-2:2013 belong to?

EN 754-2:2013 is classified under the following ICS (International Classification for Standards) categories: 77.150.10 - Aluminium products. The ICS classification helps identify the subject area and facilitates finding related standards.

What standards are related to EN 754-2:2013?

EN 754-2:2013 has the following relationships with other standards: It is inter standard links to EN 754-2:2008, EN 754-2:2016. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.

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Standards Content (Sample)

EN 754-2:2014

SLOVENSKI STANDARD
01-februar-2014
1DGRPHãþD
SIST EN 754-2:2008
$OXPLQLMLQDOXPLQLMHYH]OLWLQH+ODGQRYOHþHQHSDOLFHGURJRYLLQFHYLGHO
0HKDQVNHODVWQRVWL
Aluminium and aluminium alloys - Cold drawn rod/bar and tube - Part 2: Mechanical
properties
Aluminium und Aluminiumlegierungen - Gezogene Stangen und Rohre - Teil 2:
Mechanische Eigenschaften
Aluminium et alliages d'aluminium - Barres et tubes étirés - Partie 2: Caractéristiques
mécaniques
Ta slovenski standard je istoveten z: EN 754-2:2013
ICS:
77.150.10 Aluminijski izdelki Aluminium products
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EUROPEAN STANDARD
EN 754-2
NORME EUROPÉENNE
EUROPÄISCHE NORM
October 2013
ICS 77.150.10 Supersedes EN 754-2:2008
English Version
Aluminium and aluminium alloys - Cold drawn rod/bar and tube -
Part 2: Mechanical properties
Aluminium et alliages d'aluminium - Barres et tubes étirés - Aluminium und Aluminiumlegierungen - Gezogene Stangen
Partie 2: Caractéristiques mécaniques und Rohre - Teil 2: Mechanische Eigenschaften
This European Standard was approved by CEN on 22 August 2013.

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-CENELEC 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-CENELEC Management Centre has the same
status as the official versions.

CEN members are the national standards bodies of Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia,
Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania,
Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and United
Kingdom.
EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels
© 2013 CEN All rights of exploitation in any form and by any means reserved Ref. No. EN 754-2:2013: E
worldwide for CEN national Members.

Contents Page
Foreword .3
1 Scope .4
2 Normative references .4
3 Mechanical property limits .4
3.1 General .4
3.2 Elongation .4
3.3 Reference list of the tables of mechanical properties of the relevant aluminium and
aluminium alloys .5
3.4 Detailed tables of mechanical properties .6
Annex A (informative) List of tempers used in Tables 1 to 37 . 43
Bibliography . 45

Foreword
This document (EN 754-2:2013) 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 2014, and conflicting national standards shall be withdrawn at the
latest by April 2014.
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 its policy that if a patentee refuses to grant licenses on standardized products under
reasonable and not discriminatory conditions, this product will be removed from the corresponding document.
This document supersedes EN 754-2:2008.
CEN/TC 132 has decided to revise this European Standard as follows:
 addition of the alloys EN AW-6026 in a new Table 24 and EN AW-6064A in a new Table 31;
 EN 10002-1 was replaced by EN ISO 6892-1.
EN 754 comprises the following parts under the general title "Aluminium and aluminium alloys — Cold drawn
rod/bar and tube":
 Part 1: Technical conditions for inspection and delivery
 Part 2: Mechanical properties
 Part 3: Round bars, tolerances on dimensions and form
 Part 4: Square bars, tolerances on dimensions and form
 Part 5: Rectangular bars, tolerances on dimensions and form
 Part 6: Hexagonal bars, tolerances on dimensions and form
 Part 7: Seamless tubes, tolerances on dimensions and form
 Part 8: Porthole tubes, tolerances on dimensions and form
According to the CEN-CENELEC Internal Regulations, the national standards organisations of the following
countries are bound to implement this European Standard: Austria, Belgium, Bulgaria, Croatia, Cyprus, Czech
Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany, Greece,
Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal,
Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom.

1 Scope
This European Standard specifies the mechanical property limits resulting from tensile testing applicable to
aluminium and aluminium alloy cold drawn rod/bar and tube.
Technical conditions for inspection and delivery, including product and testing requirements, are specified in
EN 754-1. Temper designations are defined in EN 515. The chemical composition limits for these materials
are given in EN 573-3.
2 Normative references
The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated references,
the latest edition of the referenced document (including any amendments) applies.
EN 754-1:2008, Aluminium and aluminium alloys — Cold drawn rod/bar and tube — Part 1: Technical
conditions for inspection and delivery
EN ISO 6892-1, Metallic materials — Tensile testing — Part 1: Method of test at room temperature
(ISO 6892-1)
3 Mechanical property limits
3.1 General
The mechanical properties shall be in conformity with those specified in Table 1 to Table 37 or those agreed
upon between supplier and purchaser and stated in the order document.
For all alloys the condition F (as fabricated) can be used, but without guaranteed mechanical properties.
Table 1 to Table 37 contain limits of mechanical property values obtained by tensile testing according to
EN ISO 6892-1 after sampling and test piece preparation according to EN 754-1.
NOTE The mechanical properties refer to test pieces taken in the longitudinal direction. Mechanical properties of test
pieces taken in other directions can differ from those for the longitudinal direction quoted in this standard.
Brinell hardness values given in Table 1 to Table 37 expressed as HBW values are for information only.
3.2 Elongation
If not otherwise agreed, the A value shall be used.
The A value for elongation is the % elongation measured over a gauge length of 5,65 S (where S is the initial
0 0
cross-sectional area of the test-piece), and expressed in percent.
For certain products the supplier may choose (if not otherwise specified in the order documents) to use the
elongation based on A Consequently, values for the A are included in the following tables.
50mm. 50mm
The A value is the elongation measured over a gauge length of 50 mm and expressed in percent.
50mm
Test pieces and their location in the specimen are given in EN 754-1.
3.3 Reference list of the tables of mechanical properties of the relevant aluminium and
aluminium alloys
Page
Table 1 : Aluminium EN AW-1050A [Al 99,5] 6
Table 2 : Aluminium EN AW-1200 [AI 99,0] 7
Table 3 : Alloy EN AW-2007 [Al Cu4PbMgMn] 8
Table 4 : Alloy EN AW-2011 [AI Cu6BiPb] 9
Table 5 : Alloy EN AW-2011A [AI Cu6BiPb(A)]
Table 6 : Alloy EN AW-2014 [AI Cu4SiMg] 11
Table 7 : Alloy EN AW-2014A [AI Cu4SiMg(A)] 12
Table 8 : Alloy EN AW-2017A [AI Cu4MgSi(A)] 13
Table 9 : Alloy EN AW-2024 [AI Cu4Mg1] 14
Table 10 : Alloy EN AW-2030 [AI Cu4PbMg] 15
Table 11 : Alloy EN AW-3003 [AI Mn1Cu] 16
Table 12 : Alloy EN AW-3103 [AI Mn1]
Table 13 : Alloy EN AW-5005 [AI Mg1(B)]
Table 14 : Alloy EN AW-5005A [AI Mg1(C)] 19
Table 15 : Alloy EN AW-5019 [AI Mg5] 20
Table 16 : Alloy EN AW-5049 [Al Mg2Mn0,8] 21
Table 17 : Alloy EN AW-5251 [AI Mg2Mn0,3]
Table 18 : Alloy EN AW-5052 [AI Mg2,5] 23
Table 19 : Alloy EN AW-5154A [AI Mg3,5(A)] 24
Table 20 : Alloy EN AW-5754 [AI Mg3]
Table 21 : Alloy EN AW-5083 [AI Mg4,5Mn0,7] 26
Table 22 : Alloy EN AW-5086 [AI Mg4]
Table 23 : Alloy EN AW-6012 [AI MgSiPb] 28
Table 24 : Alloy EN AW-6026 [AI MgSiBi] 29
Table 25 : Alloy EN AW-6060 [AI MgSi] 30
Table 26 : Alloy EN AW-6061 [AI Mg1SiCu] 31

Table 27 : Alloy EN AW-6262 [AI Mg1SiPb]
Table 28 : Alloy EN AW-6262A [AI Mg1SiSn] 33

Table 29 : Alloy EN AW-6063 [AI Mg0,7Si] 34
Table 30 : Alloy EN AW-6063A [AI Mg0,7Si(A)] 35
Table 31 : Alloy EN AW-6064A [AI Mg1SiBi] 36
Table 32 : Alloy EN AW-6065 [AI Mg1Bi1Si] 37
Table 33 : Alloy EN AW-6082 [AI Si1MgMn] 38
Table 34 : Alloy EN AW-7020 [AI Zn4,5Mg1] 39
Table 35 : Alloy EN AW-7022 [AI Zn5Mg3Cu] 40
Table 36 : Alloy EN AW-7049A [AI Zn8MgCu]
Table 37 : Alloy EN AW-7075 [AI Zn5,5MgCu]
3.4 Detailed tables of mechanical properties
Table 1 — Aluminium EN AW-1050A [Al 99,5]
Drawn rod/bar
R R
Dimensions
m p0,2
A A
50 mm HBW
mm MPa MPa
Temper % %
Typical
a b value
min. min.
D S min. max. min. max.
O, H111 ≤ 80 ≤ 60 60 95 - - 25 22 20
H14 ≤ 40 ≤ 10 100 135 70 - 6 5 30
H16 ≤ 15 ≤ 5 120 160 105 - 4 3 35
H18 ≤ 10 ≤ 3 145 - 125 - 3 3 43
Drawn tube
R R
m p0,2
Wall thickness A A
HBW
50 mm
MPa MPa
Temper t % %
Typical
value
mm min.
min.
min. max. min. max.
O, H111 ≤ 20 60 95 - - 25 22 20
H14 ≤ 10 100 135 70 - 6 5 30
H16 ≤ 5 120 160 105 - 4 3 35
H18 ≤ 3 145 - 125 - 3 3 43
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.

Table 2 — Aluminium EN AW-1200 [Al 99,0]
Drawn rod/bar
Dimensions R R
m p0,2 A A
HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
min. min. value
D S min. max. min. max.
O, H111 ≤ 80 ≤ 60 70 105 - - 20 16 23
H14 ≤ 40 ≤ 10 110 145 80 - 5 4 37
H16 ≤ 15 ≤ 5 135 170 115 - 3 3 45
H18 ≤ 10 ≤ 3 150 - 130 - 3 3 50
Drawn tube
R R
m p0,2 A A
Wall thickness HBW
50 mm
MPa MPa
Temper t % %
Typical
value
mm min. min.
min. max. min. max.
O, H111 ≤ 20 70 105 - - 20 16 23
H14 ≤ 10 110 145 80 - 5 4 37
H16 ≤ 5 135 170 115 - 3 3 45
H18 ≤ 3 150 - 130 - 3 3 50
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.

Table 3 — Alloy EN AW-2007 [Al CuPbMgMn]
Drawn rod/bar
Dimensions R R
m p0,2 A A
HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
min. min. value
D S min. max. min. max.
≤ 30 ≤ 30 370 240 7 95
c
T3 - -
30 < D ≤ 80 30 < S ≤ 80 340 220 6 - 95
c
T351 ≤ 80 ≤ 80 370 - 240 - 5 3 95
Drawn tube
R R
Wall thickness m p0,2 A A
HBW
50 mm
MPa MPa
Temper t % %
Typical
value
mm min.
min.
min. max. min. max.
c
T3 ≤ 20 370 - 250 - 7 95
T3510
≤ 20 370 - 240 - 5 3 95
c
T3511
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.
c
Properties may be obtained by press quenching.
Table 4 — Alloy EN AW-2011 [Al Cu6BiPb]
Drawn rod/bar
Dimensions R R
m p0,2 A A
HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
min. min. value
D S min. max. min. max.
≤ 40 ≤ 40 320 - 270 - 10 8 90
T3 40 < D ≤ 50 40 < S ≤ 50 300 - 250 - 10 - 90
280 - 210 - 10 - 90
50 < D ≤ 80 50 < S ≤ 80
T8 ≤ 80 ≤ 80 370 - 270 - 8 6 115
Drawn tube
R R
m p0,2
Wall thickness A A
50 mm HBW
MPa MPa
Temper t
% % Typical
value
mm min. min.
min. max. min. max.
≤ 5 310 - 260 - 10 90
c
T3
290 - 240 - 8 90
5 < t ≤ 20
T8 ≤ 20 370 - 275 - 8 6 115
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.
c
Properties may be obtained by press quenching.

Table 5 — Alloy EN AW-2011A [Al Cu6BiPb(A)]
Drawn rod/bar
R
Dimensions R
m p0,2
A A
50 mm HBW
mm MPa MPa
Temper % %
Typical
a b
value
min. min.
D S min. max. min. max.
≤ 40 ≤ 40
320 - 270 - 10 8 90
T3 40 < D ≤ 50 300 - 250 - 10 - 90
40 < S ≤ 50
280 - 210 - 10 - 90
50 < D ≤ 80 50 < S ≤ 80
T8 ≤ 80 ≤ 80 370 - 270 - 8 6 115
Drawn tube
R R
Wall thickness m p0,2 A A
HBW
50 mm
MPa MPa
Temper t % %
Typical
value
mm min.
min.
min. max. min. max.
≤ 5 310 - 260 - 10 90
c
T3
5 < t ≤ 20 290 - 240 - 8 90
T8 ≤ 20 370 - 275 - 8 6 115
a
D = Diameter for round bar.
c
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.
c
Properties may be obtained by press quenching.
Table 6 — Alloy EN AW-2014 [Al Cu4SiMg]
Drawn rod/bar
Dimensions R R
m p0,2 A A
HBW
50 mm
mm MPa MPa
Temper % %
Typical
value
a b min. min.
D S min. max. min. max.
O, H111 ≤ 80 ≤ 80 - 240 - 125 12 10 45
T3 ≤ 80 ≤ 80 380 - 290 - 8 6 110
T351 ≤ 80 ≤ 80 380 - 290 - 6 4 110
T4 ≤ 80 ≤ 80 380 - 220 - 12 10 110
T451 ≤ 80 ≤ 80 380 - 220 - 10 8 110
T6 ≤ 80 ≤ 80 450 - 380 - 8 6 140
T651 ≤ 80 ≤ 80 450 - 380 - 6 4 140
Drawn tube
R R
m p0,2
A A
Wall thickness HBW
50 mm
MPa MPa
Temper t % %
Typical
value
mm min. min.
min. max. min. max.
O, H111 ≤ 20 - 240 - 125 12 10 45
T3 380 - 290 - 8 6 110
≤ 20
T3510,
≤ 20 380 - 290 - 6 4 110
T3511
T4 380 - 240 - 12 10 110
≤ 20
T4510,
≤ 20 380 - 240 - 10 8 110
T4511
T6 450 - 380 - 8 6 140
≤ 20
T6510,
≤ 20 450 - 380 - 6 4 140
T6511
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.

Table 7 — Alloy EN AW-2014A [Al Cu4SiMg(A)]
Drawn rod/bar
Dimensions R R
m p0,2 A
A HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
value
min. min.
D S min. max. min. max.
O, H111 ≤ 80 ≤ 80 - 240 - 125 12 10 45
T3 380 - 290 - 8 6 110
≤ 80 ≤ 80
T351 ≤ 80 ≤ 80 380 - 290 - 6 4 110
T4 380 - 220 - 12 10 110
≤ 80 ≤ 80
T451 ≤ 80 ≤ 80 380 - 220 - 10 8 110
T6 450 - 380 - 8 6 140
≤ 80 ≤ 80
T651 ≤ 80 ≤ 80 450 - 380 - 6 4 140
Drawn tube
R R
m p0,2
Wall thickness A A
50 mm HBW
MPa MPa
Temper t % %
Typical
value
mm min. min.
min. max. min. max.
O, H111 ≤ 20 - 240 - 125 12 10 45
T3 ≤ 20 380 - 290 - 8 6 110
T3510,
≤ 20 380 - 290 - 6 4 110
T3511
T4 ≤ 20 380 - 240 - 12 10 110
T4510,
≤ 20 380 - 240 - 10 8 110
T4511
T6 ≤ 20 450 - 380 - 8 6 140
T6510,
450 - 380 - 6 4 140
≤ 20
T6511
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.

Table 8 — Alloy EN AW-2017A [Al Cu4MgSi(A)]
Drawn rod/bar
R R
Dimensions
m p0,2
A A
50 mm HBW
mm MPa MPa
Temper % %
Typical
a b value
min. min.
D S min. max. min. max.
O, H111 ≤ 80 ≤ 80 - 240 - 125 12 10 45
c
T3 ≤ 80 ≤ 80 400 - 250 - 10 8 105
c
T351 ≤ 80 ≤ 80 400 - 250 - 8 6 105
Drawn tube
R R
m p0,2
Wall thickness A A
50 mm HBW
MPa MPa
t
Temper % %
Typical
value
mm min. min.
min. max. min. max.
O, H111 ≤ 20 - 240 - 125 12 10 45
c
T3 ≤ 20 400 - 250 - 10 8 105
T3510,
≤ 20 400 - 250 - 8 6 105
c
T3511
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.
c
Properties may be obtained by press quenching.

Table 9 — Alloy EN AW-2024 [AlCu4Mg1]
Drawn rod/bar
Dimensions R R
m p0,2 A
A HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
value
min. min.
D S min. max. min. max.
O, H111 ≤ 80 ≤ 80 - 250 - 150 12 10 47
≤ 10 ≤ 10 425 310 10 8 120
T3 - -
425 290 9 7 120
10 < D ≤ 80 10 < S ≤ 80
T351 ≤ 80 ≤ 80 425 - 310 - 8 6 120
T6 425 - 315 - 5 4 125
≤ 80 ≤ 80
T651 ≤ 80 ≤ 80 425 - 315 - 4 3 125
T8 455 - 400 - 4 3 130
≤ 80 ≤ 80
T851 ≤ 80 ≤ 80 455 - 400 - 3 2 130
Drawn tube
R R
m p0,2
Wall thickness A A
50 mm HBW
MPa MPa
Temper t % %
Typical
value
mm min. min.
min. max. min. max.
O, H111 ≤ 20 - 240 - 140 12 10 47
≤ 5 440 290 10 8 120
T3 - -
420 270 10 8 120
5 < t ≤ 20
T3510,
≤ 20 420 - 290 - 8 6 120
T3511
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.

Table 10 — Alloy EN AW-2030 [Al Cu4PbMg]
Drawn rod/bar
Dimensions R R
m p0,2 A A
HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
value
min. min.
D S min. max. min. max.
≤ 30 ≤ 30 370 240 7 5 115
c
T3 - -
340 220 6 - 115
30 < D ≤ 80 30 < S ≤ 80
c
T351 ≤ 80 ≤ 80 370 - 240 - 5 3 115
Drawn tube
R R
m p0,2
Wall thickness A A
HBW
50 mm
MPa MPa
Temper t % %
Typical
value
mm min. min.
min. max. min. max.
c
T3 ≤ 20 370 - 240 - 7 5 115
T3510,
370 - 240 - 5 3 115
≤ 20
c
T3511
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.
c
Properties may be obtained by press quenching.

Table 11 — Alloy EN AW-3003 [Al Mn1Cu]
Drawn rod/bar
Dimensions R R
m p0,2 A A
HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
value
min. min.
D S min. max. min. max.
O, H111 ≤ 80 ≤ 60 95 130 35 - 25 20 29
H14 ≤ 40 ≤ 10 130 165 110 - 6 4 40
H16 ≤ 15 ≤ 5 160 195 130 - 4 3 47
H18 ≤ 10 ≤ 3 180 - 145 - 3 2 55
Drawn tube
R R
m p0,2 A A
Wall thickness
50 mm HBW
MPa MPa
Temper t % %
Typical
value
mm min. min.
min. max. min. max.
O, H111 ≤ 20 95 130 35 - 25 20 29
H11 ≤ 17 105 140 55 - 20 16 32
H12 ≤ 15 115 150 75 - 14 12 35
H13 ≤ 12 125 160 95 - 11 8 38
H14 ≤ 10 130 165 110 - 6 4 40
H15 ≤ 7 145 180 120 - 5 4 44
H16 ≤ 5 160 195 130 - 4 3 47
H17 170 205 140 - 3 2 51
≤ 4
H18 ≤ 3 180 - 145 - 3 2 55
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.

Table 12 — Alloy EN AW-3103 [Al Mn1]
Drawn rod/bar
Dimensions R R
m p0,2 A A
HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
value
min. min.
D S min. max. min. max.
O, H111 ≤ 80 ≤ 60 95 130 35 - 25 20 29
H14 ≤ 40 ≤ 10 130 165 110 - 6 4 40
H16 ≤ 15 ≤ 5 160 195 130 - 4 3 47
H18 ≤ 10 ≤ 3 180 - 145 - 3 2 55
Drawn tube
R R
m p0,2 A A
Wall thickness
50 mm HBW
MPa MPa
Temper t % %
Typical
value
mm min. min.
min. max. min. max.
O, H111 95 130 35 - 25 20 29
≤ 20
H11 105 140 55 - 20 16 32
≤ 17
H12 115 150 75 - 14 12 35
≤ 15
H13 125 160 95 - 11 8 38
≤ 12
H14 130 165 110 - 6 4 40
≤ 10
H15 145 180 120 - 5 4 44
≤ 7
H16 160 195 130 - 4 3 47
≤ 5
H17 170 205 140 - 3 2 51
≤ 4
H18 180 - 145 - 3 2 55
≤ 3
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.

Table 13 — Alloy EN AW-5005 [Al Mg1(B)]
Drawn rod/bar
Dimensions R R
m p0,2 A A
HBW
50 mm
mm MPa MPa
Temper % %
Typical
a b
min. min. value
D S min. max. min. max.
O, H111 ≤ 80 ≤ 60 100 145 40 - 18 16 30
H14 ≤ 40 ≤ 10 140 - 110 - 6 4 45
H18 ≤ 15 ≤ 2 185 - 155 - 4 2 55
Drawn tube
R R
Wall thickness m p0,2 A A
HBW
50 mm
MPa MPa
Temper t % %
Typical
value
mm min.
min.
min. max. min. max.
O, H111 ≤ 20 100 145 40 - 18 16 30
H14 ≤ 5 140 - 110 - 6 4 45
H18 ≤ 3 185 - 155 - 4 2 55
a
D = Diameter for round bar.
b
S = Width across flats for square and hexagonal bar, thickness for rectangular bar.

EN
...

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La norme EN 754-2:2013 se concentre sur les propriétés mécaniques des barres, tiges et tubes en aluminium et alliages d'aluminium issus d'un processus de traction à froid. Cette standardisation est cruciale pour garantir la qualité et la fiabilité des produits en aluminium dans divers secteurs industriels. Le périmètre de la norme est clairement défini, établissant des limites de propriétés mécaniques qui résultent de tests de traction. Cela permet aux fabricants d'assurer que leurs produits respectent des critères précis, contribuant ainsi à la sécurité et à l'efficacité des applications finales. Les conditions techniques pour l'inspection et la livraison, ainsi que les exigences relatives aux produits et aux tests, sont également précisées dans la norme, fournissant un cadre exhaustif pour la conformité. Parmi les forces de la norme, on note sa capacité à harmoniser les spécifications au niveau européen, facilitant ainsi le commerce et l'exportation de produits en aluminium. Les désignations de traitement thermique définies dans EN 515 ainsi que les limites de composition chimique énoncées dans EN 573-3 renforcent également la crédibilité de la norme, garantissant que les utilisateurs disposent d’informations complètes sur les matériaux qu'ils manipulent. La norme EN 754-2:2013 est donc non seulement pertinente mais essentielle pour les acteurs du secteur, soutenant les exigences de performance d’une large gamme d'applications. En établissant des critères clairs et rigoureux, cette norme encourage les bonnes pratiques de fabrication et assure la compétitivité des produits en aluminium sur le marché européen.

EN 754-2:2013は、アルミニウムおよびアルミニウム合金の冷間引抜きロッド/バーおよびチューブに関する機械的特性を定義する重要な標準です。この規格は、引張試験に基づく機械的特性の限界を明確に示しており、製品の品質を管理する上で不可欠な要素です。この標準の強みの一つは、その詳細な検査および納品の技術条件を提供している点です。具体的には、EN 754-1で規定された製品および試験要件は、ユーザーが求める品質基準を満たすための指針となります。また、温度設計ationsについてはEN 515で定義されており、様々な用途に応じた特性を選定する際に役立ちます。さらに、EN 573-3に記載された化学組成の限界も本標準において非常に重要です。これにより、指定された材料の特性に基づいて信頼性の高い製品を提供するための基盤が確立されています。総じて、EN 754-2:2013は、理解しやすく、実用的な基準を提供し、アルミニウムおよびアルミニウム合金製品の機械的特性の確保に寄与しています。この標準の適用は、製造業者やエンジニアリング部門にとって極めて重要なものであり、業界全体の品質向上に貢献しています。

SIST EN 754-2:2014 문서는 알루미늄과 알루미늄 합금의 냉간 인발 바 및 튜브에 대한 기계적 성질을 규정한 유럽 표준인 EN 754-2:2013을 기반으로 하고 있습니다. 이 표준은 인장 시험에 따른 기계적 특성의 한계를 명확히 하여 제조업체와 사용자 간의 일관성을 보장합니다. 이 표준의 주요 강점은 기계적 성질에 대한 구체적이고 명확한 기준을 제시한다는 점입니다. 특히, 기계적 특성이 무엇인지에 대해 정의하고, 그 한계를 설정함으로써 다양한 용도로 사용되는 알루미늄 제품의 품질을 유지하는 데 기여합니다. 또한, EN 754-1에서 검사 및 인도에 대한 기술 조건을 명시하고, EN 515에서 템퍼 표기를 정의하여 생산 과정에서 필요한 모든 기술 정보를 통합하고 있습니다. EN 573-3에서는 해당 재료의 화학 조성 한계를 규정하여, 사용자들이 제품의 적합성을 평가하는 데 필요한 필수 정보를 제공합니다. 이러한 종합적인 정보는 제조업체가 요구하는 품질 기준을 충족할 수 있도록 하며, 알루미늄 제품의 사용 범위를 확장하는 데 기여합니다. SIST EN 754-2:2014는 알루미늄과 알루미늄 합금 산업에서 기계적 특성의 중요성을 인식하고, 이를 통합적으로 규제하기 위한 네트워크 역할을 수행함으로써 해당 분야의 기술적 신뢰성을 높이는 데 크게 기여하고 있습니다.

Die Norm EN 754-2:2013 befasst sich mit den mechanischen Eigenschaften von kaltgezogenem Aluminium und Aluminiumlegierungen, die in Stangen und Rohren verwendet werden. Der Geltungsbereich dieser Norm ist klar umrissen und bietet umfassende Richtlinien für die Festlegungen der mechanischen Eigenschaften, die aus Zugversuchen abgeleitet werden. Diese spezifischen Anforderungen sind von entscheidender Bedeutung für Hersteller, Verarbeiter und Anwender, die hohe Anforderungen an die Materialqualität stellen. Eine Stärke der EN 754-2:2013 liegt in ihrer detaillierten Beschreibung der mechanischen Eigenschaftsgrenzen, die nicht nur für die Qualitätssicherung, sondern auch für die Weiterverarbeitung und Nutzung der Materialien in verschiedenen Industrien von Bedeutung sind. Der Verweis auf die Prüfmethoden in der zugehörigen Norm EN 754-1 gewährleistet, dass die Qualitätskontrolle und die Lieferbedingungen eindeutig geregelt sind, was zu einer hohen Konsistenz der Produkte führt. Ein weiterer relevanter Aspekt dieser Norm ist, dass die Temperbezeichungen in EN 515 festgelegt sind, was eine einheitliche Kommunikation über den Zustand der Materialien ermöglicht. Dies ist insbesondere wichtig in der Aluminiumverarbeitung, wo unterschiedliche Legierungen und Wärmebehandlungen die mechanischen Eigenschaften erheblich beeinflussen können. Auch die chemischen Zusammensetzungen der Legierungen, die in EN 573-3 spezifiziert sind, ergänzen die Informationen aus EN 754-2 und schaffen ein umfassendes Rahmenwerk, das Qualität und Verträglichkeit garantiert. Zusammenfassend ist die EN 754-2:2013 eine zentrale Norm, die nicht nur die mechanischen Eigenschaften von kaltgezogenem Aluminium und Aluminiumlegierungen festlegt, sondern auch durch ihre Verbindungen zu anderen relevanten Normen die Gesamtqualität und Sicherheit der Produkte in der Anwendung unterstützt. Die Norm fördert ein hohes Maß an Vertrauen in die Materialien, die in der Industrie verwendet werden, und sichert deren Leistung in vielfältigen Einsatzbereichen.

The EN 754-2:2013 standard focuses on the mechanical properties of cold drawn rod/bar and tube made from aluminium and aluminium alloys. Its primary scope establishes the tensile testing requirements and the acceptable mechanical property limits that must be adhered to in these materials. This level of specification showcases the standard's integral role in ensuring quality and performance in the manufacturing of aluminium products that utilize cold drawing processes. One of the significant strengths of EN 754-2:2013 is its detailed approach to defining mechanical properties, which is critical for industries that require precision-engineered components. By providing clear guidelines on tensile testing, this standard helps manufacturers ensure that their products meet necessary performance criteria, reducing variability and enhancing reliability. The emphasis laid on the mechanical properties facilitates easier selection and application of materials in various engineering contexts, allowing for effective and safe product design. Moreover, EN 754-2:2013 maintains relevance across various sectors by aligning with other related standards, such as EN 754-1, which covers technical conditions for inspection and delivery, and EN 515, which outlines temper designations. This interconnectivity ensures that stakeholders have a comprehensive understanding of not just the mechanical properties, but also the complete spectrum of requirements regarding aluminum products. The inclusion of chemical composition limits in related documents, like EN 573-3, further bolsters the robustness of the standard, ensuring that all aspects of material quality are addressed. In conclusion, EN 754-2:2013 is an essential standard within the realm of aluminium and aluminium alloy products, offering clear, applicable mechanical property limits that are crucial for manufacturers and engineers. Its comprehensive nature and alignment with complementary standards enhance its utility, making it a vital reference document in the field of materials engineering.