SIST EN ISO 15156-3:2004/AC:2007

2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.Petroleum, petrochemical and natural gas industries - Materials for use in H2S-containing environments in oil and gas production - Part 3: Cracking-resistant CRAs (corrosion-resistant alloys) and other alloys (ISO 15156-3:2003/Cor.1:2005 and ISO 15156-3:2003/Cor.2:2005)Industries du pétrole, pétrochimiques et du gaz naturel - Matériaux pour utilisation dans des environnements contenant de l'hydrogene sulfuré (H2S) dans la production de pétrole et de gaz - Partie 3: ARC (alliages résistants a la corrosion) et autres alliages résistants a la fissuration (ISO 15156-3:2003/Cor.1:2005 et ISO 15156-3:2003/Cor.2:2005)Erdöl- und Erdgasindustrie - Werkstoffe für den Einsatz in H2S-haltiger Umgebung bei der Öl- und Gasgewinnung - Teil 3: Hochlegierte Stähle (CRAs) und andere Legierungen (ISO 15156-3:2003/Cor.1:2005 und ISO 15156-3:2003/Cor.2:2005)Ta slovenski standard je istoveten z:EN ISO 15156-3:2003/AC:2006SIST EN ISO 15156-3:2004/AC:2007en77.060Korozija kovinCorrosion of metals75.180.10Oprema za raziskovanje in odkopavanjeExploratory and extraction equipmentICS:SLOVENSKI
STANDARDSIST EN ISO 15156-3:2004/AC:200701-maj-2007







EUROPEAN STANDARDNORME EUROPÉENNEEUROPÄISCHE NORMEN ISO 15156-3:2003/ACMarch 2006Mars 2006März 2006ICS 75.180.10; 77.060English versionVersion FrançaiseDeutsche FassungPetroleum, petrochemical and natural gas industries - Materials for use inH2S-containing environments in oil and gas production - Part 3: Cracking-resistant CRAs (corrosion-resistant alloys) and other alloys (ISO 15156-3:2003/Cor.1:2005 and ISO 15156-3:2003/Cor.2:2005)Industries du pétrole, pétrochimiques et dugaz naturel - Matériaux pour utilisation dansdes environnements contenant del'hydrogène sulfuré (H2S) dans laproduction de pétrole et de gaz - Partie 3:ARC (alliages résistants à la corrosion) etautres alliages résistants à la fissuration(ISO 15156-3:2003/Cor.1:2005 et ISO15156-3:2003/Cor.2:2005)Erdöl- und Erdgasindustrie - Werkstoffe fürden Einsatz in H2S-haltiger Umgebung beider Öl- und Gasgewinnung - Teil 3:Hochlegierte Stähle (CRAs) und andereLegierungen (ISO 15156-3:2003/Cor.1:2005 und ISO 15156-3:2003/Cor.2:2005)This corrigendum becomes effective on 1 March 2006 for incorporation in the three official languageversions of the EN.Ce corrigendum prendra effet le 1 mars 2006 pour incorporation dans les trois versions linguistiquesofficielles de la EN.Die Berichtigung tritt am 1.März 2006 zur Einarbeitung in die drei offiziellen Sprachfassungen der ENin Kraft.EUROPEAN COMMITTEE FOR STANDARDIZATIONCOMITÉ EUROPÉEN DE NORMALISATIONEUROPÄISCHES KOMITEE FÜR NORMUNGManagement Centre: rue de Stassart, 36
B-1050 Brussels© 2006 CENAll rights of exploitation in any form and by any means reserved worldwide for CEN national Members.Tous droits d'exploitation sous quelque forme et de quelque manière que ce soit réservés dans le monde entier auxmembres nationaux du CEN.Alle Rechte der Verwertung, gleich in welcher Form und in welchem Verfahren, sind weltweit den nationalen Mitgliedernvon CEN vorbehalten.Ref. No.:EN ISO 15156-3:2003/AC:2006 D/E/F



EN ISO 15156-3:2003/AC:2006 (E/F/D) 2 English version
Endorsement Notice
The text of ISO 15156-3:2003/Cor.1:2005 and ISO 15156-3:2003/Cor.2:2005 has been approved by CEN as a European Corrigendum without any modifications.
Version française
Notice d’entérinement
Le texte de l’ISO 15156-3:2003/Cor.1:2005 et de l’ISO 15156-3:2003/Cor.2:2005 a été approuvé par le CEN comme Corrigendum européen sans aucune modification.



ICS
75.180.01 Ref. No. ISO 15156-3:2003/Cor.1:2005(E)©
ISO 2005 – All rights reserved Published in Switzerland
INTERNATIONAL STANDARD ISO 15156-3:2003 TECHNICAL CORRIGENDUM 1 Published 2005-02-15 INTERNATIONAL ORGANIZATION FOR STANDARDIZATION •
• ORGANISATION INTERNATIONALE DE NORMALISATION
Petroleum and natural gas industries — Materials for use in H2S-containing environments in oil and gas production — Part 3: Cracking-resistant CRAs (corrosion-resistant alloys) and other alloys TECHNICAL CORRIGENDUM 1 Industries du pétrole et du gaz naturel — Matériaux pour utilisation dans des environnements contenant de l'hydrogène sulfuré (H2S) dans la production de pétrole et de gaz — Partie 3: ARC (alliages résistants à la corrosion) et autres alliages résistants à la fissuration RECTIFICATIF TECHNIQUE 1 Technical Corrigendum 1 to ISO 15156-3:2003 was prepared by Technical Committee ISO/TC 67, Materials, equipment and offshore structures for petroleum, petrochemical and natural gas industries.
Page 59, D.2: Replace D.2 with the following: These tables provide a link between the UNS numbers used in the tables of Annex A and the chemical compositions of the alloys to which they refer. Document users are encouraged to consult Reference [19] where they will find a written description of each alloy, its chemical composition, common trade names and cross references to other industry specifications.



ISO 15156-3:2003/Cor.1:2005(E) 2 ©
ISO 2005 – All rights reserved Pages 60 to 70, Tables D.1 to D.12: Delete column 2. Page 72: Amend Reference [19] to read as follows: [19] SAE - ASTM, Metals and Alloys in the Unified Numbering System 6) Add footnote 6: ________________ 6) Available from ASTM online, as searchable CD and in printed form.



ICS
75.180.01 Ref. No. ISO 15156-3:2003/Cor.2:2005(E)©
ISO 2005 – All rights reserved Published in Switzerland
INTERNATIONAL STANDARD ISO 15156-3:2003 TECHNICAL CORRIGENDUM 2 Published 2005-09-01 INTERNATIONAL ORGANIZATION FOR STANDARDIZATION •
• ORGANISATION INTERNATIONALE DE NORMALISATION
Petroleum and natural gas industries — Materials for use in H2S-containing environments in oil and gas production — Part 3: Cracking-resistant CRAs (corrosion-resistant alloys) and other alloys TECHNICAL CORRIGENDUM 2 Industries du pétrole et du gaz naturel — Matériaux pour utilisation dans des environnements contenant de l'hydrogène sulfuré (H2S) dans la production de pétrole et de gaz — Partie 3: ARC (alliages résistants à la corrosion) et autres alliages résistants à la fissuration RECTIFICATIF TECHNIQUE 2 Technical Corrigendum 2 to ISO 15156-3 was prepared by Technical Committee ISO/TC 67, Materials, equipment and offshore structures for petroleum, petrochemical and natural gas industries.
Page iii, Contents: Replace the title for Annex A with the following: Annex A (normative) Environmental cracking-resistant CRAs and other alloys (including Table A.1 — Guide to the use of the materials selection tables of Annex A)



ISO 15156-3:2003/Cor.2:2005(E) 2 ©
ISO 2005 – All rights reserved Page 2, Table 1 — List of equipment: Replace Table 1 with the following: Table 1— List of equipment ISO 15156-3 is applicable to materials used for the following equipment Permitted exclusions Drilling, well construction and well-servicing equipment Equipment only exposed to drilling fluids of controlled compositiona Drill bits Blowout Preventer (BOP) shear bladesb Drilling riser systems Work strings Wireline and wireline equipmentc Surface and intermediate casing Wells, including subsurface equipment, gas lift equipment, wellheads and christmas trees Sucker rod pumps and sucker rodsd Electric submersible pumps Other artificial lift equipment Slips Flowlines, gathering lines, field facilities and field processing plants Crude oil storage and handling facilities operating at a total absolute pressure below 0,45 MPa (65 psi) Water-handling equipment
Water-handling facilities operating at a total absolute pressure below 0,45 MPa (65 psi) Water injection and water disposal equipmente Natural gas treatment plants — Transportation pipelines for liquids, gases and multiphase fluids Lines handling gas prepared for general commercial and domestic use For all equipment above Components loaded only in compression a See ISO 15156-2:2003, A.2.3.2.3 for more information. b See ISO 15156-2:2003, A.2.3.2.1 for more information. c Wireline lubricators and lubricator connecting devices are not permitted exclusions. d For sucker rod pumps and sucker rods, reference can be made to NACE MR0176. e For water injection and water disposal, reference can be made to NACE RP0475.
Page 7, 6.2.2.2.2 Hardness testing methods for welding procedure qualification: Replace 6.2.2.2.2 with the following: Hardness testing for welding procedure qualification shall be carried out using Vickers HV 10 or HV 5 methods in accordance with ISO 6507-1 or the Rockwell 15N method in accordance with ISO 6508-1. NOTE For the purposes of this provision, ASTM E 92 is equivalent to ISO 6507-1 and ASTM E 18 is equivalent to ISO 6508-1. The use of other methods shall require explicit user approval.



ISO 15156-3:2003/Cor.2:2005(E) ©
ISO 2005 – All rights reserved 3 Page 7, 6.2.2.2.3 Hardness surveys for welding procedure qualification: Replace 6.2.2.2.3 with the following: Hardness surveys for butt welds, fillet welds, repair and partial penetration welds and overlay welds shall be carried out as described in 7.3.3.3 of ISO 15156-2:2003.
Page 10, Annex A: Replace the title for Annex A with the following: Annex A (normative) Environmental cracking-resistant CRAs and other alloys (including Table A.1 — Guide to the use of the materials selection tables of Annex A)
Page 13, Table A.1 — Guide to the use of the materials selection tables of Annex A: Replace Table A.1 with the following:



ISO 15156-3:2003/Cor.2:2005(E) 4 ©
ISO 2005 – All rights reserved Table A.1 — Guide to the use of the materials selection tables of Annex A Material selection table numbers for various materials groups Equipment or components Austenitic stainless
steel
(see A.2) Highly-alloyed austenitic stainless steels
(see A.3) Solid-solution nickel-based alloys
(see A.4) Ferritic stainless steels (see A.5) Matensitic stainless steels (see A.6) Duplex stainless steels (see A.7) Precipitation-hardened stainless steels
(see A.8) Precipitation-hardened nickel-based alloys
(see A.9) Cobalt-based alloys
(see A.10) Titanium and tantalum
(see A.11) Any equipment or component A.2 A.8 A.13, A.14 A.17 A.18 A.24 A.26 A.31, A.32, A.33 A.38 A.41,A.42 Additional materials selection tables for casing, tubing and downhole equipment
Downhole tubular components — A.9 — — A.19 A.25 — — — —
Packers and other subsurface equipment — A.9 — — A.20, A.21 A.25 A.27 — — —
Gas lift equipment A.7 A.10 A.16 — — — — A.37 — —
Injection tubing and equipment A.7 — — — — — — — — —
Downhole control line tubing and downhole screens
A.7 A.11 — — — — — — — — Additional materials selection tables for wellheads, christmas trees, valves, chokes and level controllers
Wellhead and tree components (with various specified exclusions) — — A.13 — A.23 — A.27 A.34 — —
Valve and choke components (with various specified exclusions) — — — — A.23 — A.27 A.34 — —
Shafts, stems and pins
A.3 — — — — — — — — —
Non-pressure-containing internal-valve, pressure-regulator, and level-controller components — — — — — — A.28 A.35 — — Additional materials selection tables for process plant
Compressor components A.6 — — — A.22 — A.30 — — — Additional materials selection tables for other equipment
Instrumentation and control devices
A.6 — — — — — — — — —
Instrument tubing and associated compression fittings, surface control line tubing and surface screens A.4 A.11 — — — — — — — —
Springs — — — — — — — A.36 A.39 —
Diaphragms, pressure measuring devices and pressure seals — — — — — — — — A.40 —
Seal rings and gaskets A.5 — — — — — — — — —
Snap rings — — — — — — A.29 — — —
Bearing pins — — A.15 — — — — — — —
Miscellaneous equipment as named in the tables (including hardware (e.g. set screws, etc.), downhole and surface temporary-service tool applications) A.7 — A.16 — — — A.28 A.35 — —



ISO 15156-3:2003/Cor.2:2005(E) ©
ISO 2005 – All rights reserved 5 Page 14, Table A.2 — Environmental and materials limits for austenitic stainless steels used
for any equipment or components: Replace Table A.2 with the following: Table A.2 — Environmental and materials limits for austenitic stainless steels used
for any equipment or components
Materials type/ Individual alloy UNS Number Temperature Partial pressure H2S, pH2S Chloride conc. pH Sulfur- resistant? Remarks
max. max. max.
°C (°F) kPa (psi) mg/l
Any equipment or components 60 (140) 100 (15) See remarks See remarksNo Any combinations of chloride concentration and in situ pH occurring in production environments are acceptable. Austenitic stainless steel from materials type described in A.2 See remarks See remarks 50 See remarksNo These materials have been used without restrictions on temperature, pH2S, or in situ pH in production environments. No limits on individual parameters are set but some combinations of the values of these parameters might not be acceptable. S20910 66 (150) 100 (15) See remarks See remarksNo Any combinations of chloride concentration and in situ pH occurring in production environments are acceptable. Any equipment or components in oil and gas processing and injection facilities in operations after separation Austenitic stainless steel from materials type described in A.2 See remarks See remarks 50 See remarksNo These materials have been used without restrictions on temperature, pH2S, or in situ pH in production environments. No limits on individual parameters are set but some combinations of the values of these parameters might not be acceptable. These materials shall also — be in the solution-annealed and quenched, or annealed and thermally-stabilized heat-treatment condition; — be free of cold work intended to enhance their mechanical properties; and — have a maximum hardness of 22 HRC. However, S20910 is acceptable in the annealed or hot-rolled (hot/cold-worked) condition at a maximum hardness of 35 HRC. A limit on the martensite content of these austenitic stainless steels should be considered.



ISO 15156-3:2003/Cor.2:2005(E) 6 ©
ISO 2005 – All rights reserved Page 16, Table A.6 — Environmental and materials limits for austenitic stainless steels used in compressors and instrumentation and control devices: Replace Table A.6 with the following: Table A.6 — Environmental and materials limits for austenitic stainless steels used in compressors and instrumentation and control devices Materials type TemperaturePartial pressure H2S, pH2S Chloride conc. pH Sulfur- resistant?Remarks
max. max. max.
°C (°F) kPa (psi) mg/l
Compressors Austenitic stainless steel from materials type described in A.2 See remarks See remarks See remarks See remarks NDS a Any combinations of temperature, pH2S, chloride concentration and in situ pH occurring in production environments are acceptable. Instrumentation and control devicesb Austenitic stainless steel from materials type described in A.2 See remarks See remarks See remarks See remarks NDS a These materials have been used for these components without restriction on temperature, pH2S, Cl−, or in situ pH in production environments. No limits on individual parameters are set but some combinations of the values of these parameters might not be acceptable. For these applications, these materials shall also ⎯ be in the solution-annealed and quenched, or annealed and stabilized heat-treatment condition; ⎯ be free of cold work intended to enhance their mechanical properties; and ⎯ have a maximum hardness of 22 HRC. A limit on the martensite content of these austenitic stainless steels should be considered. a No data submitted to ascertain whether these materials are acceptable for service in the presence of elemental sulfur in the environment. b Instrumentation and control devices include but are not limited to diaphragms, pressure measuring devices and pressure seals



ISO 15156-3:2003/Cor.2:2005(E) ©
ISO 2005 – All rights reserved 7 Page 18, Table A.8 — Environmental and materials limits for highly-alloyed austenitic stainless steels used for any equipment or components: Replace Table A.8 with the following: Table A.8 — Environmental and materials limits for highly-alloyed austenitic stainless steels used for any equipment or components TemperaturePartial pressure H2S, pH2S Chloride conc. pH Sulfur-resistant? Remarks max. max. max.
Materials types/ Individual alloy UNS Number °C (°F) kPa (psi) mg/l
Any equipment or components Materials type 3a and 3b 60 (140) 100 (15) See remarks See remarks No Any combinations of chloride concentration and in situ pH occurring in production environments are acceptable. Materials type 3a and 3b See remarksSee remarks 50 See remarks No These materials have been used without restrictions on temperature, pH2S, or in situ pH in production environments.
No limits on individual parameters are set but some combinations of the values of these parameters might not be acceptable. 121 (250) 700 (100) 5 000 See remarks No 149 (300) 310 (45) 5 000 See remarks No Materials type 3b 171 (340) 100 (15) 5 000 See remarks No The in situ pH values occurring in production environments are acceptable. N08926 121 (250) 700 (100) 60 700 W 3,5, see also remarks No pH estimated from laboratory test conditions. UNS N08926 is material type 3b tested to higher limits of chloride concentration than apply for the materials type as a whole. J95370 150 (302) 700 90 000 See remarks No The in situ pH values occurring in production environments are acceptable. J93254 See remarksSee remarks See remarks See remarks No Any combinations of temperature, pH2S, chloride concentration and in situ pH occurring in production environments are acceptable. Any equipment or components in oil and gas processing and injection facilities in operations after separation Materials type 3a and 3b See remarksSee remarks 50 See remarks No These materials have been used without restrictions on temperature, pH2S, or in situ pH in production environments. No limits on individual parameters are set but some combinations of the values of these parameters might not be acceptable. These materials shall also comply with the following. ⎯ Materials type 3a shall be highly-alloyed austenitic stainless steel with (Ni + 2Mo) [ 30 (where Mo has a minimum value of 2 %). ⎯ Materials type 3b shall be highly-alloyed austenitic stainless steel with FPREN [ 40. ⎯ Materials types 3a and 3b (including N08926) shall be in the solution-annealed condition. ⎯ Cast UNS J93254 (CK3McuN, cast 254SMO) in accordance with ASTM A 351, A 743 or A 744 shall be in the cast, solution heat-treated condition and shall have a maximum hardness of 100 HRB. ⎯ Cast J95370 shall be in the solution heat-treated and water-quenched condition and shall have a maximum hardness of 94 HRB.



ISO 15156-3:2003/Cor.2:2005(E) 8 ©
ISO 2005 – All rights reserved
Page 22, Table A.13 — Environmental and materials limits for solid-solution nickel-based alloys used in any equipment or component: Replace Table A.13 with the following: Table A.13 — Environmental and materials limits for solid-solution nickel-based alloys used in any equipment or component Temperature Partial pressure H2S, pH2S Chloride conc. pH Sulfur-resistant?Remarks max. max. max.
Materials types/ Individual alloy UNS Number °C (°F) kPa (psi) mg/l
Annealed alloys of types 4a and 4b See remarks See remarks See remarks See remarksYes N04400, N04405 See remarks See remarks See remarks See remarksNDSa Any combinations of temperature, pH2S, chloride concentration and in situ pH occurring in production environments are acceptable. Wrought or cast solid-solution nickel-based products made from alloys of types 4a and 4b shall be in the solution-annealed or annealed condition. UNS N04400 and UNS N04405 shall have a maximum hardness of 35 HRC. Wellhead and christmas tree components shall also be in accordance with ISO 10423. a No data submitted to ascertain whether these materials are acceptable for service in the presence of elemental sulfur in the environment.



ISO 15156-3:2003/Cor.2:2005(E) ©
ISO 2005 – All rights r
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