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ISO 21809-3:2016

(Main)

Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings

Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings

ISO 21809-3:2016 specifies requirements for field joint coating of seamless or welded steel pipes for buried and submerged sections of pipeline transportation systems used in the petroleum, petrochemical and natural gas industries as defined in ISO 13623. This part of ISO 21809 specifies the qualification, application and testing of the corrosion protection coatings applied to steel surfaces left bare after the joining of pipes and fittings (components) by welding. ISO 21809-3:2016 defines and codifies in Table 1 the different types of field joint coatings for pipelines. ISO 21809-3:2016 does not address requirements for additional mechanical protection, for thermal insulation or for joint infills of concrete weight-coated pipes. NOTE Field joints of pipes and fittings coated in accordance with this part of ISO 21809 are considered suitable for further protection by means of cathodic protection.

Industries du pétrole et du gaz naturel — Revêtements externes des conduites enterrées ou immergées utilisées dans les systèmes de transport par conduites — Partie 3: Revêtements des joints soudés sur site

L'ISO 21809-3:2016 spécifie les exigences relatives au revêtement des joints soudés sur site des tubes en acier sans soudure et soudés destinés aux tronçons enterrés ou immergés des systèmes de transport par conduites utilisés dans les industries du pétrole, de la pétrochimique et du gaz naturel, tels que définis dans l'ISO 13623. La présente partie de L'ISO 21809-3:2016 spécifie la qualification, l'application et les essais relatifs aux revêtements de protection contre la corrosion appliqués aux surfaces d'acier laissées nues après l'assemblage des tubes et raccords (composants) par soudage. L'ISO 21809-3:2016 définit et codifie dans le Tableau 1 les différents types de revêtement des joints soudés sur site pour conduites. L'ISO 21809-3:2016 ne traite pas des exigences relatives à la protection mécanique complémentaire, l'isolation thermique ou le remplissage des joints des tubes lestés avec du béton. NOTE Les joints soudés sur site des tubes et raccords revêtus conformément à la présente partie de L'ISO 21809-3:2016 sont considérés comme étant adaptés à une protection cathodique complémentaire.

General Information

Status
Published
Publication Date
14-Feb-2016
ICS
75.200 - Petroleum products and natural gas handling equipment
Technical Committee
ISO/TC 67/SC 2 - Pipeline transportation systems
Drafting Committee
ISO/TC 67/SC 2/WG 14 - External pipeline protective coatings
Current Stage
9092 - International Standard to be revised
Completion Date
20-Apr-2023
Ref Project

Relations

Amended By
ISO 21809-3:2016/Amd 1:2020 - Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings — Amendment 1: Introduction of mesh-backed coating systems
Effective Date
14-Oct-2020
Consolidates
ISO 10555-1:1995/Amd 2:2004 - Sterile, single-use intravascular catheters — Part 1: General requirements — Amendment 2
Effective Date
06-Jun-2022
Revises
ISO 21809-3:2008 - Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings
Effective Date
26-Nov-2011
Revises
ISO 21809-3:2008/Amd 1:2011 - Petroleum and natural gas industries — External coatings for buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings — Amendment 1
Effective Date
26-Nov-2011

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ISO 21809-3:2016 - Industries du pétrole et du gaz naturel -- Revetements externes des conduites enterrées ou immergées utilisées dans les systemes de transport par conduitesISO 21809-3:2016 - Industries du pétrole et du gaz naturel -- Revetements externes des conduites enterrées ou immergées utilisées dans les systemes de transport par conduites
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Standards Content (Sample)

INTERNATIONAL ISO
STANDARD 21809-3
Second edition
2016-03-01
Petroleum and natural gas
industries — External coatings for
buried or submerged pipelines used
in pipeline transportation systems —
Part 3:
Field joint coatings
Industries du pétrole et du gaz naturel — Revêtements externes
des conduites enterrées ou immergées utilisées dans les systèmes de
transport par conduites —
Partie 3: Revêtements des joints soudés sur site
Reference number
ISO 21809-3:2016(E)
©
ISO 2016

---------------------- Page: 1 ----------------------
ISO 21809-3:2016(E)

COPYRIGHT PROTECTED DOCUMENT
© ISO 2016, Published in Switzerland
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized otherwise in any form
or by any means, electronic or mechanical, including photocopying, or posting on the internet or an intranet, without prior
written permission. Permission can be requested from either ISO at the address below or ISO’s member body in the country of
the requester.
ISO copyright office
Ch. de Blandonnet 8 • CP 401
CH-1214 Vernier, Geneva, Switzerland
Tel. +41 22 749 01 11
Fax +41 22 749 09 47
copyright@iso.org
www.iso.org
ii © ISO 2016 – All rights reserved

---------------------- Page: 2 ----------------------
ISO 21809-3:2016(E)

Contents Page
Foreword .ix
Introduction .x
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 4
4 Symbols and abbreviated terms . 6
4.1 Symbols . 6
4.2 Abbreviated terms . 7
5 General requirements . 8
5.1 Responsibily of the end user . 8
5.2 Rounding . 8
5.3 Compliance, testing and quality . 8
6 Information to be supplied by the purchaser. 8
6.1 General information . 8
6.2 Additional information . 8
7 Application procedures and qualification . 9
7.1 Application procedure specification (APS) . 9
7.2 Coating materials .10
7.3 Procedure qualification trial (PQT) .10
7.4 Pre-production trial (PPT) .11
7.5 Qualification of coating and inspection personnel .12
7.6 Production testing and inspection .12
7.7 Inspection documents and traceability .12
8 Classification of field joint coatings .12
9 General requirements for surface preparation, coating application, testing and repair .13
9.1 Surface preparation .13
9.1.1 General.13
9.1.2 Preparation of the steel substrate .14
9.1.3 Preparation of the adjacent plant-applied coating .15
9.2 Application of the coating .15
9.3 Visual inspection of the applied coating .15
9.4 Testing of the field joint coating .16
9.5 Repairs .16
9.6 Verification, handling and storage of coating materials .16
10 Hot-applied bituminous tape coatings .16
10.1 Coating identification .16
10.2 Description of the coatings .16
10.3 Surface preparation .16
10.4 Coating application.16
10.4.1 General.16
10.4.2 Application of the primer .16
10.4.3 Application of the bituminous tapes . .17
10.4.4 Overlap .17
10.5 Testing of the applied coatings .17
10.5.1 General.17
10.5.2 Thickness .17
10.5.3 Holiday detection .18
10.5.4 Impact resistance .18
10.5.5 Indentation resistance .18
10.5.6 Specific electrical insulation resistance .18
© ISO 2016 – All rights reserved iii

---------------------- Page: 3 ----------------------
ISO 21809-3:2016(E)

10.5.7 Cathodic disbondment .18
10.5.8 Peel strength to pipe surface and plant coating .18
10.5.9 Hot-water immersion test .18
10.5.10 Lap shear strength . .18
11 Petrolatum and wax-based tape coatings .22
11.1 Coating identification .22
11.2 Description of the coatings .22
11.2.1 Petrolatum tapes (Type 11A).22
11.2.2 Wax-based tapes (Type 11B) .22
11.3 Surface preparation .22
11.4 Coating application.22
11.4.1 General.22
11.4.2 Application of the primer .22
11.4.3 Application of petrolatum or wax-based tapes .23
11.4.4 Overlap .23
11.5 Testing of the applied coatings .23
11.5.1 General.23
11.5.2 Thickness .23
11.5.3 Holiday detection .23
11.5.4 Impact resistance .23
11.5.5 Indentation resistance .24
11.5.6 Specific electrical insulation resistance .24
11.5.7 Cathodic disbondment .24
11.5.8 Peel strength to pipe surface and plant coating .24
11.5.9 Hot-water immersion test .24
11.5.10 Drip resistance .24
12 Cold-applied polymeric tape coatings .26
12.1 Coating identification .26
12.2 Description of the coatings .26
12.3 Surface preparation .26
12.4 Coating application.26
12.4.1 General.26
12.4.2 Application of the primer .26
12.4.3 Application of polymeric tapes .26
12.4.4 Overlap .27
12.5 Testing of the applied coatings .27
12.5.1 General.27
12.5.2 Thickness .27
12.5.3 Holiday detection .27
12.5.4 Impact resistance .27
12.5.5 Indentation resistance .27
12.5.6 Cathodic disbondment .28
12.5.7 Peel strength between tape layers of polymeric tapes .28
12.5.8 Peel strength to pipe surface and plant coating .28
12.5.9 Hot-water immersion test .28
12.5.10 Lap shear strength . .28
12.5.11 Thermal ageing resistance .28
13 Non-crystalline low-viscosity polyolefin based coatings .29
13.1 Coating identification .29
13.2 Description of the coatings .30
13.3 Surface preparation .30
13.4 Application of the coatings .31
13.4.1 General.31
13.4.2 Overlap .31
13.5 Testing of the applied coating .31
13.5.1 General.31
13.5.2 Thickness .31
iv © ISO 2016 – All rights reserved

---------------------- Page: 4 ----------------------
ISO 21809-3:2016(E)

13.5.3 Holiday detection .31
13.5.4 Impact resistance .32
13.5.5 Indentation resistance .32
13.5.6 Specific electrical insulation resistance .32
13.5.7 Cathodic disbondment resistance .32
13.5.8 Peel strength between layers of outer wrap .32
13.5.9 Adhesion to pipe surface and plant coating .32
13.5.10 Thermal ageing resistance .33
13.5.11 Resistance to lap shear .33
13.5.12 Hot-water immersion test .33
13.5.13 Glass transition and crystallization temperatures .33
13.5.14 Drip resistance .33
14 Coatings based on heat-shrinkable materials .37
14.1 Coating identification .37
14.2 Description of the coatings .37
14.2.1 General.37
14.2.2 Type 14A .37
14.2.3 Types 14B, 14C and 14D .37
14.3 Surface preparation .38
14.4 Application of the coatings .38
14.4.1 General.38
14.4.2 Application of the primer .38
14.4.3 Application of heat-shrinkable materials .38
14.4.4 Overlap .39
14.5 Testing of the applied coatings .39
14.5.1 General.39
14.5.2 Thickness .39
14.5.3 Holiday detection .39
14.5.4 Peel strength .40
14.5.5 Cathodic disbondment .40
14.5.6 Hot-water immersion test .40
14.5.7 Impact resistance .40
14.5.8 Indentation resistance .40
14.5.9 Lap shear strength . .40
14.5.10 Thermal ageing resistance and thermal stability .40
14.5.11 Bursting strength.40
14.5.12 Oxidation induction time .41
15 Hot-applied microcrystalline wax coatings .45
15.1 Coating identification .45
15.2 Description of the coating .45
15.3 Surface preparation .45
15.4 Application of the coating .45
15.4.1 General.45
15.4.2 Application of the microcrystalline wax .45
15.4.3 Application of the outer wrap .46
15.4.4 Application of wax top coat .46
15.5 Testing of the applied coatings .46
15.5.1 General.46
15.5.2 Thickness .46
15.5.3 Holiday detection .46
15.5.4 Adhesion .
...

FINAL
INTERNATIONAL ISO/FDIS
DRAFT
STANDARD 21809-3
ISO/TC 67/SC 2
Petroleum and natural gas
Secretariat: UNI
industries — External coatings for
Voting begins on:
2015-11-26 buried or submerged pipelines used
in pipeline transportation systems —
Voting terminates on:
2016-01-26
Part 3:
Field joint coatings
Industries du pétrole et du gaz naturel — Revêtements externes
des conduites enterrées ou immergées utilisées dans les systèmes de
transport par conduites —
Partie 3: Revêtements des joints soudés sur site
Please see the administrative notes on page iii
RECIPIENTS OF THIS DRAFT ARE INVITED TO
SUBMIT, WITH THEIR COMMENTS, NOTIFICATION
OF ANY RELEVANT PATENT RIGHTS OF WHICH
THEY ARE AWARE AND TO PROVIDE SUPPOR TING
DOCUMENTATION.
IN ADDITION TO THEIR EVALUATION AS
Reference number
BEING ACCEPTABLE FOR INDUSTRIAL, TECHNO-
ISO/FDIS 21809-3:2015(E)
LOGICAL, COMMERCIAL AND USER PURPOSES,
DRAFT INTERNATIONAL STANDARDS MAY ON
OCCASION HAVE TO BE CONSIDERED IN THE
LIGHT OF THEIR POTENTIAL TO BECOME STAN-
DARDS TO WHICH REFERENCE MAY BE MADE IN
©
NATIONAL REGULATIONS. ISO 2015

---------------------- Page: 1 ----------------------
ISO/FDIS 21809-3:2015(E)

ISO/CEN PARALLEL PROCESSING
This final draft has been developed within the International Organization for Standardization (ISO), and pro-
cessed under the ISO-lead mode of collaboration as defined in the Vienna Agreement. The final draft was
established on the basis of comments received during a parallel enquiry on the draft.
This final draft is hereby submitted to the ISO member bodies and to the CEN member bodies for a parallel
two-month approval vote in ISO and formal vote in CEN.
Positive votes shall not be accompanied by comments.
Negative votes shall be accompanied by the relevant technical reasons.
COPYRIGHT PROTECTED DOCUMENT
© ISO 2015, Published in Switzerland
All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized otherwise in any form
or by any means, electronic or mechanical, including photocopying, or posting on the internet or an intranet, without prior
written permission. Permission can be requested from either ISO at the address below or ISO’s member body in the country of
the requester.
ISO copyright office
Ch. de Blandonnet 8 • CP 401
CH-1214 Vernier, Geneva, Switzerland
Tel. +41 22 749 01 11
Fax +41 22 749 09 47
copyright@iso.org
www.iso.org
ii © ISO 2015 – All rights reserved

---------------------- Page: 2 ----------------------
ISO/FDIS 21809-3:2015(E)

Contents Page
Foreword .ix
Introduction .x
1 Scope . 1
2 Normative references . 1
3 Terms and definitions . 4
4 Symbols and abbreviated terms . 6
4.1 Symbols . 6
4.2 Abbreviated terms . 7
5 General requirements . 8
5.1 Responsibily of the end user . 8
5.2 Rounding . 8
5.3 Compliance, testing and quality . 8
6 Information to be supplied by the purchaser. 8
6.1 General information . 8
6.2 Additional information . 8
7 Application procedures and qualification . 9
7.1 Application procedure specification (APS) . 9
7.2 Coating materials .10
7.3 Procedure qualification trial (PQT) .10
7.4 Pre-production trial (PPT) .11
7.5 Qualification of coating and inspection personnel .12
7.6 Production testing and inspection .12
7.7 Inspection documents and traceability .12
8 Classification of field joint coatings .12
9 General requirements for surface preparation, coating application, testing and repair .13
9.1 Surface preparation .13
9.1.1 General.13
9.1.2 Preparation of the steel substrate .14
9.1.3 Preparation of the adjacent plant-applied coating .15
9.2 Application of the coating .15
9.3 Visual inspection of the applied coating .15
9.4 Testing of the field joint coating .16
9.5 Repairs .16
9.6 Verification, handling and storage of coating materials .16
10 Hot-applied bituminous tape coatings .16
10.1 Coating identification .16
10.2 Description of the coatings .16
10.3 Surface preparation .16
10.4 Coating application.16
10.4.1 General.16
10.4.2 Application of the primer .16
10.4.3 Application of the bituminous tapes . .17
10.4.4 Overlap .17
10.5 Testing of the applied coatings .17
10.5.1 General.17
10.5.2 Thickness .17
10.5.3 Holiday detection .18
10.5.4 Impact resistance .18
10.5.5 Indentation resistance .18
10.5.6 Specific electrical insulation resistance .18
© ISO 2015 – All rights reserved iii

---------------------- Page: 3 ----------------------
ISO/FDIS 21809-3:2015(E)

10.5.7 Cathodic disbondment .18
10.5.8 Peel strength to pipe surface and plant coating .18
10.5.9 Hot-water immersion test .18
10.5.10 Lap shear strength . .18
11 Petrolatum and wax-based tape coatings .22
11.1 Coating identification .22
11.2 Description of the coatings .22
11.2.1 Petrolatum tapes (Type 11A).22
11.2.2 Wax-based tapes (Type 11B) .22
11.3 Surface preparation .22
11.4 Coating application.22
11.4.1 General.22
11.4.2 Application of the primer .22
11.4.3 Application of petrolatum or wax-based tapes .23
11.4.4 Overlap .23
11.5 Testing of the applied coatings .23
11.5.1 General.23
11.5.2 Thickness .23
11.5.3 Holiday detection .23
11.5.4 Impact resistance .23
11.5.5 Indentation resistance .24
11.5.6 Specific electrical insulation resistance .24
11.5.7 Cathodic disbondment .24
11.5.8 Peel strength to pipe surface and plant coating .24
11.5.9 Hot-water immersion test .24
11.5.10 Drip resistance .24
12 Cold-applied polymeric tape coatings .26
12.1 Coating identification .26
12.2 Description of the coatings .26
12.3 Surface preparation .26
12.4 Coating application.26
12.4.1 General.26
12.4.2 Application of the primer .26
12.4.3 Application of polymeric tapes .26
12.4.4 Overlap .27
12.5 Testing of the applied coatings .27
12.5.1 General.27
12.5.2 Thickness .27
12.5.3 Holiday detection .27
12.5.4 Impact resistance .27
12.5.5 Indentation resistance .27
12.5.6 Cathodic disbondment .28
12.5.7 Peel strength between tape layers of polymeric tapes .28
12.5.8 Peel strength to pipe surface and plant coating .28
12.5.9 Hot-water immersion test .28
12.5.10 Lap shear strength . .28
12.5.11 Thermal ageing resistance .28
13 Non-crystalline low-viscosity polyolefin based coatings .29
13.1 Coating identification .29
13.2 Description of the coatings .30
13.3 Surface preparation .30
13.4 Application of the coatings .31
13.4.1 General.31
13.4.2 Overlap .31
13.5 Testing of the applied coating .31
13.5.1 General.31
13.5.2 Thickness .31
iv © ISO 2015 – All rights reserved

---------------------- Page: 4 ----------------------
ISO/FDIS 21809-3:2015(E)

13.5.3 Holiday detection .31
13.5.4 Impact resistance .32
13.5.5 Indentation resistance .32
13.5.6 Specific electrical insulation resistance .32
13.5.7 Cathodic disbondment resistance .32
13.5.8 Peel strength between layers of outer wrap .32
13.5.9 Adhesion to pipe surface and plant coating .32
13.5.10 Thermal ageing resistance .33
13.5.11 Resistance to lap shear .33
13.5.12 Hot-water immersion test .33
13.5.13 Glass transition and crystallization temperatures .33
13.5.14 Drip resistance .33
14 Coatings based on heat-shrinkable materials .37
14.1 Coating identification .37
14.2 Description of the coatings .37
14.2.1 General.37
14.2.2 Type 14A .37
14.2.3 Types 14B, 14C and 14D .38
14.3 Surface preparation .38
14.4 Application of the coatings .38
14.4.1 General.38
14.4.2 Application of the primer .38
14.4.3 Application of heat-shrinkable materials .39
14.4.4 Overlap .39
14.5 Testing of the applied coatings .39
14.5.1 General.39
14.5.2 Thickness .39
14.5.3 Holiday detection .40
14.5.4 Peel strength .40
14.5.5 Cathodic disbondment .40
14.5.6 Hot-water immersion test .40
14.5.7 Impact resistance .40
14.5.8 Indentation resistance .40
14.5.9 Lap shear strength . .40
14.5.10 Thermal ageing resistance and thermal stability .41
14.5.11 Bursting strength.41
14.5.12 Oxidation induction time .41
15 Hot-applied microcrystalline wax coatings .44
15.1 Coating identification .44
15.2 Description of the coating .44
15.3 Surface preparation .44
15.4 Application of the coating .45
15.4.1 General.45
15.4.2 Application of the microcrystalline wax .
...

NORME ISO
INTERNATIONALE 21809-3
Deuxième édition
2016-03-01
Industries du pétrole et du gaz
naturel — Revêtements externes des
conduites enterrées ou immergées
utilisées dans les systèmes de
transport par conduites —
Partie 3:
Revêtements des joints soudés sur site
Petroleum and natural gas industries — External coatings for buried
or submerged pipelines used in pipeline transportation systems —
Part 3: Field joint coatings
Numéro de référence
ISO 21809-3:2016(F)
©
ISO 2016

---------------------- Page: 1 ----------------------
ISO 21809-3:2016(F)

DOCUMENT PROTÉGÉ PAR COPYRIGHT
© ISO 2016, Publié en Suisse
Droits de reproduction réservés. Sauf indication contraire, aucune partie de cette publication ne peut être reproduite ni utilisée
sous quelque forme que ce soit et par aucun procédé, électronique ou mécanique, y compris la photocopie, l’affichage sur
l’internet ou sur un Intranet, sans autorisation écrite préalable. Les demandes d’autorisation peuvent être adressées à l’ISO à
l’adresse ci-après ou au comité membre de l’ISO dans le pays du demandeur.
ISO copyright office
Ch. de Blandonnet 8 • CP 401
CH-1214 Vernier, Geneva, Switzerland
Tel. +41 22 749 01 11
Fax +41 22 749 09 47
copyright@iso.org
www.iso.org
ii © ISO 2016 – Tous droits réservés

---------------------- Page: 2 ----------------------
ISO 21809-3:2016(F)

Sommaire Page
Avant-propos .ix
Introduction .x
1 Domaine d’application . 1
2 Références normatives . 1
3 Termes et définitions . 4
4 Symboles et abréviations . 7
4.1 Symboles . 7
4.2 Abréviations . 7
5 Exigences générales . 8
5.1 Responsabilités de l’utilisateur final . 8
5.2 Arrondis . 8
5.3 Conformité, essais et qualité . 8
6 Informations à fournir par l’acheteur . 9
6.1 Informations générales . 9
6.2 Informations complémentaires . 9
7 Modes opératoires d’application et qualification .10
7.1 Spécification du mode opératoire d’application (APS) .10
7.2 Matériaux de revêtement .10
7.3 Essai de qualification du mode opératoire (PQT) .11
7.4 Essai de pré-production (PPT) .12
7.5 Qualification du revêtement et du personnel de contrôle .12
7.6 Essais et contrôles de production .12
7.7 Documents de contrôle et traçabilité .13
8 Classification des revêtements de joints soudés sur site .13
9 Exigences générales relatives à la préparation des surfaces, à l’application du
revêtement, aux essais et à la réparation .14
9.1 Préparation des surfaces .14
9.1.1 Généralités .14
9.1.2 Préparation du substrat en acier .14
9.1.3 Préparation du revêtement adjacent appliqué en usine .16
9.2 Application du revêtement .16
9.3 Contrôle visuel du revêtement appliqué.16
9.4 Essais du revêtement de joint soudé sur site.16
9.5 Réparations .17
9.6 Vérification, manutention et stockage des matériaux de revêtement .17
10 Revêtements à base de bandes bitumineuses appliquées à chaud .17
10.1 Identification du revêtement .17
10.2 Description des revêtements .17
10.3 Préparation des surfaces .17
10.4 Application du revêtement .17
10.4.1 Généralités .17
10.4.2 Application du primaire .17
10.4.3 Application des bandes bitumineuses.18
10.4.4 Recouvrement .18
10.5 Essais des revêtements appliqués .18
10.5.1 Généralités .18
10.5.2 Épaisseur .18
10.5.3 Détection des porosités .19
10.5.4 Résistance aux chocs .19
10.5.5 Résistance à l’indentation .19
© ISO 2016 – Tous droits réservés iii

---------------------- Page: 3 ----------------------
ISO 21809-3:2016(F)

10.5.6 Résistance d’isolement électrique spécifique .19
10.5.7 Décollement cathodique .19
10.5.8 Résistance au pelage à la surface du tube et sur le revêtement d’usine .19
10.5.9 Essai d’immersion dans l’eau chaude .19
10.5.10 Résistance au cisaillement du recouvrement .20
11 Revêtements en bande de pétrolatum et à base de cire .22
11.1 Identification du revêtement .22
11.2 Description des revêtements .23
11.2.1 Bandes de pétrolatum (Type 11A) .23
11.2.2 Bandes à base de cire (Type 11B) .23
11.3 Préparation des surfaces .23
11.4 Application du revêtement .23
11.4.1 Généralités .23
11.4.2 Application du primaire .23
11.4.3 Application des bandes de pétrolatum ou à base de cire .23
11.4.4 Recouvrement .24
11.5 Essais des revêtements appliqués .24
11.5.1 Généralités .24
11.5.2 Épaisseur .24
11.5.3 Détection des porosités .24
11.5.4 Résistance aux chocs .24
11.5.5 Résistance à l’indentation .24
11.5.6 Résistance d’isolement électrique spécifique .25
11.5.7 Décollement cathodique .25
11.5.8 Résistance au pelage à la surface du tube et sur le revêtement d’usine .25
11.5.9 Essai d’immersion dans l’eau chaude .25
11.5.10 Résistance à la formation de gouttes .25
12 Revêtements de bandes polymères appliquées à froid .27
12.1 Identification du revêtement .27
12.2 Description des revêtements .27
12.3 Préparation des surfaces .27
12.4 Application du revêtement .27
12.4.1 Généralités .27
12.4.2 Application du primaire .27
12.4.3 Application des bandes polymères .28
12.4.4 Recouvrement .28
12.5 Essais des revêtements appliqués .28
12.5.1 Généralités .28
12.5.2 Épaisseur .28
12.5.3 Détection des porosités .28
12.5.4 Résistance aux chocs .29
12.5.5 Résistance à l’indentation .29
12.5.6 Décollement cathodique .29
12.5.7 Résistance au pelage entre les couches de bandes polymères . .29
12.5.8 Résistance au pelage à la surface du tube et sur le revêtement d’usine .29
12.5.9 Essai d’immersion dans l’eau chaude .29
12.5.10 Résistance au cisaillement du recouvrement .29
12.5.11 Résistance au vieillissement thermique .29
13 Revêtements à base de polyoléfines non cristallines à faible viscosité.30
13.1 Identification du revêtement .30
13.2 Description des revêtements .31
13.3 Préparation des surfaces .32
13.4 Application des revêtements .32
13.4.1 Généralités .32
13.4.2 Recouvrement .32
13.5 Essais des revêtements appliqués .32
13.5.1 Généralités .32
iv © ISO 2016 – Tous droits réservés

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ISO 21809-3:2016(F)

13.5.2 Épaisseur .32
13.5.3 Détection des porosités .33
13.5.4 Résistance aux chocs .33
13.5.5 Résistance à l’indentation .33
13.5.6 Résistance d’isolement électrique spécifique .33
13.5.7 Résistance au décollement cathodique .33
13.5.8 Résistance au pelage entre les couches d’enveloppe extérieure .33
13.5.9 Adhérence à la surface du tube et sur le revêtement d’usine.34
13.5.10 Résistance au vieillissement thermique .34
13.5.11 Résistance au cisaillement de recouvrement .34
13.5.12 Essai d’immersion dans l’eau chaude .34
13.5.13 Températures de transition vitreuse et de cristallisation .35
13.5.14 Résistance à la formation de gouttes .35
14 Revêtements à base de matériaux thermorétractables .38
14.1 Identification du revêtement .38
14.2 Description des revêtements .39
14.2.1 Généralités .39
14.2.2 Type 14A .39
14.2.3 Types 14B, 14C et 14D .39
14.3 Préparation des surfaces .40
14.4 Application des revêtements .40
14.4.1 Généralités .40
14.4.2 Application du primaire .40
14.4.3 Application de matériaux thermorétractables.40
14.4.4 Recouvrement .41
14.5 Essais des revêtements appliqués .41
14.5.1 Généralités .41
14.5.2 Épaisseur .41
14.5.3 Détection des porosités .42
14.5.4 Résistance au pelage .42
14.5.5 Décollement cathodique .42
14.5.6 Essai d’immersion dans l’eau chaude .42
14.5.7 Résistance aux chocs .42
14.5.8 Résistance à l’indentation .42
14.5.9 Résistance au cisaillement du recouvrement .42
14.5.10 Résistance au vieillissement thermique et stabilité thermique .42
14.5.11 Résistance à l’éclatement.43
14.5.12 Temps d’induction de l’oxydation .43
15 Revêtements de cire microcristalline appliqués à chaud .46
15.1 Identification du revêtement .46
15.2 Description du revêtement .46
15.3 Préparation des surfaces .47
15.4 Application du revêtement .47
15.4.1 Généralités .47
15.4.2 Application de la cire microcristalline .47
15.4.3 Application de l’enveloppe extérieure .47
15.4.4 Application de la couche de cire de finition .47
15.5 Essais des revêtements appliqués .47
15.5.1 Généralités .47
15.5.2 Épaisseur .48
15.5.3 Détection des porosités .48
15.5.4 Adhérence .48
15.5.5 Dureté .48
16 Revêtements élastomères .49
16.1 Identification du revêtement .49
16.2 Description des revêtements .49
16.3 Préparation des surfaces .50
© ISO 2016 – Tous droits réservés v

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ISO 21809-3:2016(F)

16.4 Application des revêtements .
...

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