EN 62004:2009

SLOVENSKI STANDARD
01-februar-2010
Toplotno odporna žica iz aluminijeve litine za vodnike nadzemnih vodov (IEC
62004:2007, spremenjen)
Thermal resistant aluminium alloy wire for overhead line conductor
Wärmebeständige Drähte aus Aluminiumlegierung für Leiter von Freileitungen
Fils en alliage d'aluminium résistant à la chaleur pour les conducteurs de lignes
aériennes
Ta slovenski standard je istoveten z: EN 62004:2009
ICS:
29.060.10 Žice Wires
29.240.20 Daljnovodi Power transmission and
distribution lines
77.150.10 Aluminijski izdelki Aluminium products
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EUROPEAN STANDARD
EN 62004
NORME EUROPÉENNE
June 2009
EUROPÄISCHE NORM
ICS 17.220.20; 29.240.20
English version
Thermal-resistant aluminium alloy wire
for overhead line conductor
(IEC 62004:2007, modified)
Fils en alliage d'aluminium  Wärmebeständige Drähte
résistant à la chaleur aus Aluminiumlegierung
pour les conducteurs de lignes aériennes für Leiter von Freileitungen
(CEI 62004:2007, modifiée) (IEC 62004:2007, modifiziert)

This European Standard was approved by CENELEC on 2009-05-01. CENELEC 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 Central Secretariat or to any CENELEC 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 CENELEC member into its own language and notified
to the Central Secretariat has the same status as the official versions.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Cyprus, the
Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia,
Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain,
Sweden, Switzerland and the United Kingdom.

CENELEC
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung

Central Secretariat: Avenue Marnix 17, B - 1000 Brussels

© 2009 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Ref. No. EN 62004:2009 E
Foreword
The text of the International Standard IEC 62004:2007, prepared by IEC TC 7, Overhead electrical
conductors, together with common modifications prepared by CENELEC BTTF 129-1,
Thermal-resistant aluminium alloy wire for overhead line conductor, was submitted to the formal vote
and was approved by CENELEC as EN 62004 on 2009-05-01.
The following dates were fixed:
– latest date by which the EN has to be implemented
at national level by publication of an identical
national standard or by endorsement (dop) 2010-05-01
– latest date by which the national standards conflicting
with the EN have to be withdrawn (dow) 2012-05-01
This European Standard is a consolidated version consisting of the text of the International
Standard IEC 62004:2007 plus the agreed common modifications, which are identified by a
vertical line in the left margin of the text.
__________
– 3 – EN 62004:2009
Contents
1 Scope . 4
2 Normative references . 4
3 Terms and definitions . 4
4 De si gn at io n . 4
5 Values for thermal-resistant aluminium alloy wire . 5
6 Requirement . 5
6.1 Material . 5
6.2 Freedom from defects . 5
6.3 Diameter and tolerance on diameter . 5
6.4 Tensile stress . 6
6.5 Elongation . 6
6.6 Electrical resistivity . 7
6.7 Thermal-resistant property . 7
6.8 Length and tolerance on length . 7
6.9 Joints . 7
6.10 Wrapping . 7
6.11 Sampling . 8
7 Tests . 8
7.1 Place of testing . 8
7.2 Classification of tests . 8
7.3 Test method . 9
8 Acceptance and rejection . 10

Annex A (informative) Thermal-resistant property . 11

Bib lio gr ap h y . 13

Figure
Figure A.1 – Arrhenius plot (residual stress 90 %) . 11

Tables
Table 1 – Values for thermal-resistant aluminium alloy wire . 5
Table 2 – Diameter and tolerance on diameter . 5
Table 3 – Tensile stress and elongation of wires (before stranding) . 6
Table 4 – Electrical resistivity . . 7
Table 5 – Duration and temperature of heating to affirm thermal-resistant property . 7

1 Scope
This European Standard is applicable to thermal-resistant aluminium alloy wires before
stranding for manufacture of stranded conductors for overhead lines. It specifies the
mechanical, electrical and thermal-resistant properties of wires in the diameter range
commercially available.
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 50183:2000, Conductors for overhead lines - Aluminium-magnesium-silicon alloy wires
EN 60889:1997, Hard-drawn aluminium wire for overhead line conductors (IEC 60889:1987)
IEC 60468:1974, Method of measurement of resistivity of metallic materials
ISO 7802, Metallic materials - Wire - Wrapping test
3 Terms and definitions
For the purposes of this document, the following terms and definitions apply.
3.1
diameter
mean of two measured values at right angles taken at the same cross section
NOTE For non-round wires, the equivalent diameter of the round wire with the same section is used.
3.2
type
thermal-resistant aluminium alloy wires defined as “AT1”, “AT2”, “AT3” and “AT4”
3.3
thermal-resistant aluminium alloy wire
all types of aluminium-zirconium alloy wire, used at operation temperature higher than that of
conventional aluminium-magnesium-silicon alloy wire, as specified in EN 50183, or
hard-drawn aluminium wire for overhead line conductors, as specified in EN 60889, with an
allowable operating temperature as described in Table 1.
The operation temperature of conventional hard-drawn aluminium wires as well as
conventional aluminium-magnesium-silicon alloy wires is limited with 80 °C
4 Designation
The wire designations included in this standard are as follows:
– thermal-resistant aluminium alloy wire with maximum allowable continuous operating
temperature of 150 °C, designated AT1;
– extra high-strength, thermal-resistant aluminium alloy wire with maximum allowable
continuous operating temperature of 150 °C, designated AT2;
– super thermal-resistant aluminium alloy wire with maximum allowable continuous
operating temperature of 210 °C, designated AT3;
– extra thermal-resistant aluminium alloy wire with maximum allowable continuous operating
temperature of 230 °C, designated AT4.

– 5 – EN 62004:2009
5 Values for thermal-resistant aluminium alloy wire
For calculation purposes, the values given in Table 1 shall be used for thermal-resistant
aluminium alloy wire.
Table 1 – Values for thermal-resistant aluminium alloy wire

Type AT1 AT2 AT3 AT4
Density at 20 °C (g/cm) 2,703 2,703 2,703 2,703
Allowable continuous operating temperature
150 150 210 230
(40 years) (°C)
Allowable operating temperature in 400 h (°C) 180 180 240 310
–6 –6 –6 –6
Coefficient of linear expansion  (/°C)
23 × 10 23 × 10 23 × 10 23 × 10
Constant-mass temperature coefficient of resistance
0,004 0 0,003 6 0,004 0 0,003 8
at 20 °C (/°C)
6 Requirement
6.1 Material
The wires shall be of aluminium-zirconium alloy having a composition appropriate to the
mechanical, electrical and thermal-resistant properties specified hereunder for type AT1, AT2,
AT3 and AT4, respectively. The supplier should provide the purchaser on request with the
analysis certificate of the raw material.
6.2 Freedom from defects
The wires shall be smooth and free from all imperfections such as cracks, roughness, grooves,
inclusions or other defects which may endanger the performance of the product.
6.3 Diameter and tolerance on diameter
The nominal diameter of the wires shall be expressed in millimetres to two decimal places.
Each measured value of wire diameter shall not depart from the nominal diameter by more
than the amounts given in Table 2.
For the purpose of checking compliance with the above requirement, the diameter shall be
determined by the mean of the two measurements at right angles taken at the same
cross-section.
Table 2 – Diameter and tolerance on diameter
Nominal diameter Tolerance
Over Up to and including
mm mm
– 3,00 ± 0,03 mm
3,00 – ± 1 %
6.4 Tensile stress
The wire shall comply with the requirements given in Table 3. The tensile stress of a single
wire shall be computed by dividing the breaking load by the cross-sectional area. The
cross-sectional area shall be determined using the measured diameter of the test specimen.
For non-round wire, shaped before stranding, its equivalent diameter of the round wire with
the same section shall be used and the calculation result of tensile stress shall comply with
the requirements given in Table 3.
The tensile stress of the non-round wire shaped during stranding may be measured after
un-stranding, whose value shall be not less than 95 % of the applicable stress requirements
given in Table 3.
6.5 Elongation
Each measured value of wire elongation shall not be less than the amounts given in Table 3.
Table 3 – Tensile stress and elongation of wires (before stranding)
Type Nominal diameter Minimum
Tensile stress
elongation
minimum
mm
at 250 mm
MPa
Over Up to and including
%
a
– 171 1,3
2,00
2,00 2,30 1,4
2,30 2,60 169 1,5
2,60 2,90 166 1,6
AT1
2,90 3,50 162 1,7
3,50 3,80 1,8
3,80 4,00 159 1,9
a
4,00 2,0
4,50
a
– 248 1,5
2,60
2,60 2,90 245 1,6
2,90 3,50 241 1,7
AT2
3,50 3,80 1,8
3,80 4,00 238 1,9
a
4,00 225 2,0
4,50
a
– 176 1,5
2,30
2,30 2,60 169
2,60 2,90 166 1,6
AT3 2,90 3,50 162 1,7
3,50 3,80 1,8
3,80 4,00 159 1,9
a
4,00 2,0
4,50
a
– 169 1,5
2,60
2,60 2,90 165 1,6
2,90 3,50 162 1,7
AT4
3,50 3,80 1,8
3,80 4,00 159 1,9
a
4,00 2,0
4,50
a
For nominal diameters below the smallest and diameters above the biggest, the requirements have to be agreed
between purchaser and supplier.

– 7 – EN 62004:2009
6.6 Electrical resistivity
The electrical resistivity at 20 °C shall not be greater than the value given in Table 4.
Table 4 – Electrical resistivity
Type AT1 AT2 AT3 AT4
Resistivity at 20 °C, max. (nΩ×m) 28,735 31,347 28,735 29,726
(conductivity, corresponding to IACS) (60,0 %) (55,0 %) (60,0 %) (58,0 %)
NOTE IACS stands for the International Annealed Copper Standard (see IEC 60028).

6.7 Thermal-resistant property
The residual ratio of the tensile stress after heating the wire for the designated duration and
temperature given in Table 5 shall not be individually less than 85 % and average of 90 % at
room temperature compared with the initial measured value before heating.
Table 5 – Duration and temperature of heating to affirm thermal-resistant property
Duration Temperature
AT1 AT2 AT3 AT4
h °C
Temperature
230 230 280 400
of heating
+ 5 + 5 + 5 + 10
Tolerance in
temperature
– 3 – 3 – 3 – 6
Temperature
180 180 240 310
of heating
+ 10 +
...