Covered conductors for overhead lines and the related accessories for rated voltages above 1 kV AC and not exceeding 36 kV AC - Part 1: Covered conductors

This document contains the requirements for covered conductors with or without integrated longitudinal watertightness and/or semi-conductive conductor screen for applications in overhead lines with rated voltages U above 1 kV a.c. and not exceeding 36 kV a.c.

Kunststoffumhüllte Leiter und zugehörige Armaturen für Freileitungen mit Nennspannungen über 1 kV und nicht mehr als 36 kV Wechselspannung - Teil 1: Kunststoffumhüllte Freileitungsseile

Conducteurs gainés pour lignes aériennes et accessoires associés pour des tensions assignées supérieures à 1 kV en courant alternatif et ne dépassant pas 36 kV en courant alternatif - Partie 1: Conducteurs gainés

Le présent document contient les exigences pour les conducteurs gainés avec ou sans étanchéité longitudinale intégrée et/ou un écran semi-conducteur autour de l’âme pour les applications dans les lignes aériennes avec une tension assignée U supérieure à 1 kV en courant alternatif et ne dépassant pas 36 kV en courant alternatif.

Oplaščeni vodniki za nadzemne vode in ustrezen pribor za naznačene izmenične napetosti nad 1 kV, ki ne presegajo 36 kV - 1. del: Oplaščeni vodniki

General Information

Status
Published
Public Enquiry End Date
11-Jun-2020
Publication Date
01-Dec-2020
Technical Committee
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
27-Nov-2020
Due Date
01-Feb-2021
Completion Date
02-Dec-2020

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SLOVENSKI STANDARD
SIST EN 50397-1:2021
01-januar-2021
Nadomešča:
SIST EN 50397-1:2007
Oplaščeni vodniki za nadzemne vode in ustrezen pribor za naznačene izmenične
napetosti nad 1 kV, ki ne presegajo 36 kV - 1. del: Oplaščeni vodniki

Covered conductors for overhead lines and the related accessories for rated voltages

above 1 kV AC and not exceeding 36 kV AC - Part 1: Covered conductors
Kunststoffumhüllte Leiter und zugehörige Armaturen für Freileitungen mit
Nennspannungen über 1 kV und nicht mehr als 36 kV Wechselspannung - Teil 1:
Kunststoffumhüllte Freileitungsseile

Conducteurs gainés pour lignes aériennes et accessoires associés pour des tensions

assignées supérieures à 1 kV en courant alternatif et ne dépassant pas 36 kV en courant

alternatif - Partie 1: Conducteurs gainés
Ta slovenski standard je istoveten z: EN 50397-1:2020
ICS:
29.060.20 Kabli Cables
29.240.20 Daljnovodi Power transmission and
distribution lines
SIST EN 50397-1:2021 en

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

---------------------- Page: 1 ----------------------
SIST EN 50397-1:2021
---------------------- Page: 2 ----------------------
SIST EN 50397-1:2021
EUROPEAN STANDARD EN 50397-1
NORME EUROPÉENNE
EUROPÄISCHE NORM
November 2020
ICS 29.240.20 Supersedes EN 50397-1:2006 and all of its amendments
and corrigenda (if any)
English Version
Covered conductors for overhead lines and the related
accessories for rated voltages above 1 kV AC and not exceeding
36 kV AC - Part 1: Covered conductors

Conducteurs gainés pour lignes aériennes et accessoires Kunststoffumhüllte Leiter und zugehörige Armaturen für

associés pour des tensions assignées supérieures à 1 kV Freileitungen mit Nennspannungen über 1 kV und nicht

en courant alternatif et ne dépassant pas 36 kV en courant mehr als 36 kV Wechselspannung - Teil 1:

alternatif - Partie 1: Conducteurs gainés Kunststoffumhüllte Freileitungsseile

This European Standard was approved by CENELEC on 2020-10-26. 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 CEN-CENELEC

Management Centre 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 CEN-CENELEC Management Centre has the

same status as the official versions.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republic,

Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the

Netherlands, Norway, Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,

Turkey and the United Kingdom.
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels

© 2020 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.

Ref. No. EN 50397-1:2020 E
---------------------- Page: 3 ----------------------
SIST EN 50397-1:2021
EN 50397-1:2020 (E)
Contents Page

European foreword .............................................................................................................. 4

Introduction ..........................................................................................................................5

1 Scope .................................................................................................................. 6

2 Normative references ......................................................................................... 6

3 Definitions .......................................................................................................... 7

4 Covered conductors .......................................................................................... 7

4.1 Code designation ................................................................................................. 7

4.2 Construction requirements ................................................................................... 8

4.2.1 Conductor .................................................................................................................. 8

4.2.2 Filling.......................................................................................................................... 8

4.2.3 Covering .................................................................................................................... 8

5 Marking ............................................................................................................. 10

5.1 Indication of origin .............................................................................................. 10

5.2 Continuity of marks ............................................................................................ 10

5.3 Other markings................................................................................................... 11

5.4 Durability ............................................................................................................ 11

5.5 Legibility ............................................................................................................. 11

6 Tests ................................................................................................................. 11

Annex A (normative) Measurement of the leakage current ............................................ 14

A.1 Test equipment ................................................................................................. 14

A.2 Sampling ........................................................................................................... 14

A.3 Test procedure ................................................................................................. 15

A.4 Test evaluation ................................................................................................. 15

Annex B (normative) Tracking resistance ....................................................................... 16

B.1 Scope and object ............................................................................................. 16

B.2 Definitions ........................................................................................................ 16

B.3 Test specimens ................................................................................................ 16

B.3.1 Dimensions ....................................................................................................... 16

B.3.2 Preparation ....................................................................................................... 17

B.4 Apparatus ......................................................................................................... 17

B.4.1 Electrical apparatus ......................................................................................... 17

B.4.1.1 General.............................................................................................................. 17

B.4.1.2 Power supply .................................................................................................... 17

B.4.1.3 Resistor............................................................................................................. 17

B.4.1.4 Voltmeter .......................................................................................................... 18

B.4.1.5 Overcurrent delay relay ................................................................................... 18

B.4.2 Electrodes ......................................................................................................... 19

B.4.2.1 General.............................................................................................................. 19

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SIST EN 50397-1:2021
EN 50397-1:2020 (E)

B.4.2.2 Top electrode.................................................................................................... 19

B.4.2.3 Bottom electrode .............................................................................................. 20

B.4.3 Contamination .................................................................................................. 20

B.4.3.1 Contaminant ..................................................................................................... 20

B.4.3.2 Applicator paper ............................................................................................... 20

B.4.3.3 Contaminant flow ............................................................................................. 21

B.4.3.4 Flow rate ........................................................................................................... 21

B.4.4 Timing device ................................................................................................... 21

B.4.5 Depth gauge ..................................................................................................... 21

B.5 Procedure ......................................................................................................... 22

B.5.1 Preparation of the test ..................................................................................... 22

B.5.1.1 Ambient conditions .......................................................................................... 22

B.5.1.2 Mounting ........................................................................................................... 22

B.5.1.3 Adjustment of the contaminant flow ............................................................... 22

B.5.2 Application of the voltage................................................................................ 22

B.5.3 Test evaluation ................................................................................................. 22

B.6 Test report ........................................................................................................ 22

Annex C (normative) Slippage test .................................................................................. 23

C.1 Scope and object ............................................................................................. 23

C.2 Definitions ........................................................................................................ 23

C.3 Test specimens ................................................................................................ 23

C.3.1 Dimensions ....................................................................................................... 23

C.3.2 Preparation ....................................................................................................... 23

C.4 Apparatus — clamp.......................................................................................... 24

C.5 Procedure and requirements ........................................................................... 24

C.5.1 General.............................................................................................................. 24

C.5.2 Test conditions ................................................................................................. 24

C.6 Test report ........................................................................................................ 25

Annex D (normative) Non-electrical test on samples of complete cable — Resistance

to UV rays 26

D.1 Resistance to UV rays ...................................................................................... 26

Bibliography ....................................................................................................................... 28

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SIST EN 50397-1:2021
EN 50397-1:2020 (E)
European foreword

This document (EN 50397-1:2020) has been prepared by WG 13 “Covered Overhead Line Conductors” of

CLC/TC 20 “Electric cables”.
The following dates are fixed:
• latest date by which this document has (dop) 2021-10-26
to be implemented at national level by
publication of an identical national
standard or by endorsement
• latest date by which the national (dow) 2023-10-26
standards conflicting with this document
have to be withdrawn

This document supersedes EN 50397-1:2006 and all of its amendments and corrigenda (if any).

EN 50397-1:2020 includes the following significant technical changes with respect to EN 50397-1:2006:

— new references to HD 605 S3 2019.

Attention is drawn to the possibility that some of the elements of this document may be the subject of patent

rights. CENELEC shall not be held responsible for identifying any or all such patent rights.

The EN 50397 series consists of three parts:
— Part 1, “Covered conductors”;

— Part 2, “Accessories for covered conductors: Tests and acceptance criteria”; and

— Part 3, “Guide to use”
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SIST EN 50397-1:2021
EN 50397-1:2020 (E)
Introduction

The EN 50397 series covers the construction, performance and test requirements for covered conductors

for overhead lines having a nominal voltage U above 1 kV AC up to and including 36 kV AC, and for the

related accessories.

Covered conductors consist of a conductor surrounded by a covering made of insulating material as

protection against accidental contacts with other covered conductors and with grounded parts such as tree

branches, etc. In comparison with insulated conductors, this covering has reduced properties, but is able

to withstand the phase-to-earth voltage temporarily.

Since covered conductors are unscreened, they are not touch-proof, i.e. they should be treated as bare

conductors with respect to electric shock.

This document does not cover aspects related to the installation of overhead lines such as determination

of clearances, spans, sags, etc.
---------------------- Page: 7 ----------------------
SIST EN 50397-1:2021
EN 50397-1:2020 (E)
1 Scope

This document contains the requirements for covered conductors with or without integrated longitudinal

water tightness and/or semi-conductive conductor screen for applications in overhead lines with rated

voltages U above 1 kV a.c. and not exceeding 36 kV a.c.
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.

EN 50182:2001, Conductors for overhead lines - Round wire concentric lay stranded conductors

EN 60811-201, Electric and optical fibre cables - Test methods for non-metallic materials - Part 201:

General tests - Measurement of insulation thickness (IEC 60811-201)

EN 60811-401:2012, Electric and optical fibre cables - Test methods for non-metallic materials - Part 401:

Miscellaneous tests - Thermal ageing methods - Ageing in an air oven (IEC 60811-401:2012)

EN 60811-402, Electric and optical fibre cables - Test methods for non-metallic materials - Part 402:

Miscellaneous tests - Water absorption tests (IEC 60811-402)

EN 60811-501:2012, Electric and optical fibre cables - Test methods for non-metallic materials - Part 501:

Mechanical tests - Tests for determining the mechanical properties of insulating and sheathing compounds

(IEC 60811-501:2012)

EN 60811-502, Electric and optical fibre cables - Test methods for non-metallic materials - Part 502:

Mechanical tests - Shrinkage test for insulations (IEC 60811-502)

EN 60811-507, Electric and optical fibre cables - Test methods for non-metallic materials - Part 507:

Mechanical tests - Hot set test for cross-linked materials (IEC 60811-507)

EN 60811-508:2012, Electric and optical fibre cables - Test methods for non-metallic materials - Part 508:

Mechanical tests - Pressure test at high temperature for insulation and sheaths (IEC 60811-508:2012)

EN 60811-605:2012, Electric and optical fibre cables - Test methods for non-metallic materials - Part 605:

Physical tests - Measurement of carbon black and/or mineral filler in polyethylene compounds

(IEC 60811-605:2012)

EN 62219, Overhead electrical conductors - Formed wire, concentric lay, stranded conductors (IEC 62219)

EN 62230, Electric cables - Spark-test method (IEC 62230)
HD 605 S3:2019, Electric cables - Additional test methods

IEC 60502-2:2014, Power cables with extruded insulation and their accessories for rated voltages from 1

kV (U = 1,2 kV) up to 30 kV (U = 36 kV) - Part 2: Cables for rated voltages from 6 kV (U = 7,2 kV) up

m m m
to 30 kV (U = 36 kV)
———————
As impacted by EN 60811-401:2012/A1:2017.
As impacted by EN 60811-501:2012/A1:2018.
As impacted by EN 60811-508:2012/A1:2017.
---------------------- Page: 8 ----------------------
SIST EN 50397-1:2021
EN 50397-1:2020 (E)
3 Definitions
For the purpose of this document, the following definitions apply.

ISO and IEC maintain terminological databases for use in standardization at the following addresses:

— IEC Electropedia: available at http://www.electropedia.org/
— ISO Online browsing platform: available at https://www.iso.org/obp
3.1 Definitions relating to tests
3.1.1
type tests

tests required to be made before supplying a type of product covered by this document on a general

commercial basis in order to demonstrate satisfactory performance characteristics to meet the intended

application

Note 1 to entry: These tests are of such nature that, after they have been made, they need not be repeated unless

changes are made in the material, design or manufacturing process, which might change the performance

characteristics.
3.1.2
sample tests

tests made on samples of completed product or components taken from the completed product adequate

to verify that the finished product meets the design specifications
3.1.3
routine tests
tests made on all production lengths to demonstrate their integrity
3.2
rated voltage

reference voltage for which the conductor is designed and which serves to define the electrical tests

Note 1 to entry: The rated voltage is expressed by the value U, expressed in kilovolts, where U is the r.m.s. value

between any two-phase conductors.
4 Covered conductors
4.1 Code designation
Covered conductors shall be designated as follows:
Type code CC;
Covering material S (for semi-conductive conductor screen, if any),
X (for cross-linked polyethylene),
T (for thermoplastic polyethylene);
Conductor material and cross-section according to EN 50182;
Conductor design W (for watertight),
K (for compacted);
Rated voltage U in kV …kV.
---------------------- Page: 9 ----------------------
SIST EN 50397-1:2021
EN 50397-1:2020 (E)
EXAMPLE 1 OF DESIGNATION

“CCX 66-AL3 WK 20kV” is a XLPE-covered conductor with a rated voltage of 20 kV, longitudinal watertight

compacted conductor of aluminium alloy AL3 and a nominal conductor cross-section of 66 mm .

EXAMPLE 2 OF DESIGNATION

“CCST 66-A3F W 20 kV” is a thermoplastic polyethylene covered conductor with a rated voltage of 20 kV,

longitudinal watertight conductor with formed aluminium alloy wire AF3 and a nominal conductor cross-

section of 66mm .
4.2 Construction requirements
4.2.1 Conductor
Number of 1
conductors:
Conductor material: aluminium alloy or steel reinforced aluminium
2 2
Nom. cross-section: 25 mm to 400 mm for all conductors

Conductor design: the conductors may be compacted or non-compacted, with round wire or

profiled wire.

Information on bare conductors with round wires in frequent use can be found in the national lists, contained

in EN 50182:2001, Annex F. However, for the purpose of this document, conductors may be selected from

any national table. Conductors deviating in design from the standard values shall be given by the

manufacturer, but fulfilling all requirements given in EN 50182.

Information about conductors made from profiled wires shall be provided by the manufacturer.

Non-compacted conductors shall comply with EN 50182 or EN 62219 (with the exception of the filling, if

any).

For compacted conductors, based on conductors according to EN 50182, the following paragraph applies:

The outer diameter of the compacted conductor shall be 95 % (±1 % for 7 and 19-wire

constructions, ± 1,5 % for 37-wire constructions) of the diameter given in EN 50182. The rated tensile

strength (RTS) shall be at least 95 % of the value given in EN 50182. The DC resistance shall not exceed

the value given in EN 50182 by more than 5 %.
4.2.2 Filling

The stranded conductor may be longitudinally watertight by means of adequate measures as e.g. filling

with an adequate mass. The filling mass or other materials for obtaining the longitudinal watertightness,

shall be compatible with the conductor material and the material of the covering (see Table 2).

4.2.3 Covering

The covering shall consist of a cross-linked polyethylene compound, which shall comply with the

requirements according to Table 1, column 3 or of a thermoplastic polyethylene compound, complying with

the requirements according Table 1, column 4.
It shall be possible to remove the covering without damage to the conductor.
Table 1 — Properties of the covering materials
1 2 3 4
Unit
Compound designation X T
Basic material XLPE PE
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SIST EN 50397-1:2021
EN 50397-1:2020 (E)
1 2 3 4
Unit
Maximum operating temperature of the conductor °C 70
Mechanical properties
before ageing on sample (EN 60811-501:2012, 4.2)
minimum tensile strength MPa 12,5 12,5
minimum elongation at break % 200 300
after ageing on sample (of EN 60811-401:2012 , 4.2.3.2)
Temperature °C 135 110
Duration h 168 336
minimum tensile strength MPa - 12,5
maximum variation T1/T0 % ± 25 -
minimum elongation at break % - 300
maximum variation T1/T0 % ± 25 -
after ageing on complete product sample
(EN 60811-401:2012 , 4.2.3.4)
Temperature °C 100 ± 2 100 ± 2
Duration h 168 168
minimum tensile strength MPa - 12,5
maximum variation T2/T0 % ± 25 -
minimum elongation at break % - 300
maximum variation T2/T0 % ± 25 -
Physical and chemical properties
hot set test (EN 60811-507)
temperature °C 200 -
duration min 15 -
mechanical stress MPa 0,2 -
maximum elongation under load % 175 -
maximum residual elongation % 15 -
pressure test at high temperature (EN 60811-508:2012 ,
4.3)
temperature °C - 80
duration h - 4
coefficient k - - 0,8
maximum depth of indentation % - 50
Gravimetric water absorption (EN 60811-402)
temperature °C 85 85
duration h 336 336
maximum variation of mass mg/cm 1 1
shrinkage test (EN 60811-502)
distance L between marks mm 200 200
duration h 1 1
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SIST EN 50397-1:2021
EN 50397-1:2020 (E)
1 2 3 4
Unit
temperature °C 130 ± 3 100 ± 3
maximum shrinkage % 4 4
Shore D hardness (HD 605 S3:2019, 2.2.1)
minimum hardness ShD - 55

Maximum operating temperature of the conductor is limited to 80 °C due to mechanical reasons.

For use together with watertight conductors only. Adequate measures e.g. neutral capping to prevent leakage of filling

material shall be taken.

An UV-protection shall be provided. Covering materials having a content of carbon black of (2,5 ± 0,5) %

are considered to have adequate protection. Otherwise protection against UV shall be demonstrated

fulfilling the UV-test specified in Chapter 6, Table 2, No.4.3.

The nominal thickness of the covering shall be calculated according to the following formula:

S = 0,11 U
where
S is the nominal thickness of the covering in mm (rounded to one decimal place);
U is the rated voltage (see 3.2) in kV.
The nominal thickness of the covering shall be not less than 2,3 mm.

The minimum thickness of the covering at any place shall not be less than the nominal value by more than

(0,1 mm + 10 % of the nominal value). The mean value of the thickness of the covering shall not exceed

the nominal value by more than (0,1 mm + 10 % of the nominal value).

A semi-conductive conductor screen, if any, shall not be measured as covering thickness.

The covering shall be applied onto the conductor by extrusion of one or more material layers. In screened

versions (constructions), the extruded conductor screen should be durable firmly bonded to the closest

layer of insulation.
5 Marking
5.1 Indication of origin

Covered conductors shall be provided with an identification of origin consisting of a continuous marking of

the manufacturer’s name or trademark on the surface of the covering. This marking shall be made by

embossing.
5.2 Continuity of marks

The distance between the end of a mark and the beginning of the next identical mark shall not exceed

1 000 mm.

Figure 1 below shows an example of the marking, where the word “ORIGIN” stands for the mandatory

information required in 5.1 and “XYZ” stands for one of any other mandatory marks required in 5.3.

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SIST EN 50397-1:2021
EN 50397-1:2020 (E)
Figure 1 — Example of marking
5.3 Other markings
Covered conductors shall be equipped with a continuous embossing as follows:
— code designation according to 4.1;
— year of production;
— standard number.

Optional markings (e.g. slippage factor according to Annex C, meter marking) may be added upon

agreement between manufacturer and user. These optional markings may be made by printing or

embossing.
5.4 Durability

Printed markings shall be durable. Durability shall be checked by the test according to HD 605 S3:2019,

2.5.4. The markings shall be legible after this test.
5.5 Legibility

All markings shall be clearly legible. Printed markings shall be in contrasting colours.

6 Tests

The compliance with the requirements according to 4.2 and Clause 5 shall be established by visual

examination and the tests listed in Table 2.

A type test shall be performed on every covered conductor type, irrespective of the cross sectional area.

The results will be valid across the whole range of cross sectional areas for that type.

The slippage test shall be performed on each cross sectional area (see C.3.1).
Table 2 — Tests
1 2 3 4 5
No Tests Category Requirements Test methods
of tests
1 Electrical tests
1.1 Conductor resistance T, HD 605 S3:2019,
3.1.1
1.2 High voltage test
1.2.1 — for CC without conductor screen: no breakdown HD 605 S3:2019,
3.2.2.2
Test voltage (a.c.) 1 U
Number of specimen 1
Length of specimen (minimum) 5 m
---------------------- Page: 13 ----------------------
SIST EN 50397-1:2021
EN 50397-1:2020 (E)
1 2 3 4 5
No Tests Category Requirements Test methods
of tests
Duration of immersion in water (minimum) 1 h
Temperature of water (20 ± 5) °C
Test duration 15 min S
3 h T

1.2.2 — for CC with conductor screen or upon agreement no breakdown HD 605 S3:2019,

between customer and producer: 3.2.2.2
Test voltage (AC) 1 U
Number of specimen 1
Length of specimen (minimum) 5 m
Duration of immersion in water (minimum) 1 h
Temperature of water (20 ± 5) °C
Test duration 4 h S
48 h T
1.3 R no breakdown EN 62230
Spark test on the covering
Test voltage: AC 0,7 U
or DC 1 U
1.4 Leakage current T maximum Annex A
1 mA
Test voltage (AC) 0,7 U
1.5 T Annex B Annex B
Tracking resistance
2 Construction and dimensions
2.1 Compliance with the design requirements T, S, R 4.2 visual inspection
2.2 Thickness of the covering T, S, R 4.2.3 EN 60811-201
3 Construction and mechanical properties of the
conductor
3.1 Rated tensile strength a a
T, S
3.2 Construction and dimensions T, S a a
4 Non-electrical tests on the covering
4.1 Mechanical properties
a) before ageing of sample T 4.2.3 EN 60811-501:2012,
4.2
b) after ageing of sample T 4.2.3 EN 60811-401:2012,
4.2.3.2
4.2 T 4.2.3 EN 60811-605:2012,
Carbon black content
4.2
4.3 T Annex D
Resistance to UV rays
Test of compatibility
Ageing of complete product sample T 4.2.3
EN 60811-401:2012 ,
4.2.3.4
6 Thermal properties of the covering
6.1 Shrinkage test T 4.2.3 EN 60811-502
Distance “L” between marks (200 ± 5) mm
---------------------- Page: 14 ----------------------
SIST EN 50397-1:2021
EN 50397-1:2020 (E)
1 2 3 4 5
No Tests Category Requirements Test methods
of tests
6.2 T, S 4.2.3 EN 60811-507
Hot-set-test
i 3
6.3 T 4.2.3
Pressure test at high temperature EN 60811-508:2012 ,
4.3
7 Further tests on the covering
7.1 Gravimetric water absorption test T 4.2.3 EN 60811-402
7.2 T 4.2.3 HD 605 S3:2019,
Shore D hardness
2.2.1
Test of the longitudinal watertightness
8.1 With heat cycle T no leakage IEC 60502-2:2014,
Annex F
Number of specimen 1
Length of specimen 3 m
Test duration 24 h
Bending radius 20 D
8.2 Without heat cycle S no leakage IEC 60502-2:2014,
Annex F
Number of specimen 1
Length of specimen 1 m
Test duration 1 h
9 Marki
...

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