SIST EN 4877-002:2023

SLOVENSKI STANDARD
oSIST prEN 4877-002:2022
01-januar-2022
Aeronavtika - Dodajni materiali za varilne kable - 002. del: Dovoljeni dodajni
materiali
Aerospace series - Filler metals for welding - Part 002: Authorized filler metals
Luft- und Raumfahrt - Schweißzusätze - Teil 002: Zugelassene Schweißzusätze
Série aérospatiale - Métaux d’apport de soudage - Partie 002: Métaux d’apport autorisés
Ta slovenski standard je istoveten z: prEN 4877-002
ICS:
25.160.20 Potrošni material pri varjenju Welding consumables
49.025.05 Železove zlitine na splošno Ferrous alloys in general
oSIST prEN 4877-002:2022 en,fr,de
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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oSIST prEN 4877-002:2022

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oSIST prEN 4877-002:2022


DRAFT
EUROPEAN STANDARD
prEN 4877-002
NORME EUROPÉENNE

EUROPÄISCHE NORM

November 2021
ICS
English Version

Aerospace series - Filler metals for welding - Part 002:
Authorized filler metals
Série aérospatiale - Métaux d'apport de soudage - Luft- und Raumfahrt - Schweißzusätze - Teil 002:
Partie 002: Métaux d'apport autorisés Zugelassene Schweißzusätze
This draft European Standard is submitted to CEN members for enquiry. It has been drawn up by the Technical Committee ASD-
STAN.

If this draft becomes a European Standard, 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.

This draft European Standard was established by CEN 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, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, Netherlands, Norway,
Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and
United Kingdom.

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 supporting documentation.

Warning : This document is not a European Standard. It is distributed for review and comments. It is subject to change without
notice and shall not be referred to as a European Standard.


EUROPEAN COMMITTEE FOR STANDARDIZATION
COMITÉ EUROPÉEN DE NORMALISATION

EUROPÄISCHES KOMITEE FÜR NORMUNG

CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2021 CEN All rights of exploitation in any form and by any means reserved Ref. No. prEN 4877-002:2021 E
worldwide for CEN national Members.

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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
Contents Page

European foreword . 4
1 Scope . 5
2 Normative references . 5
3 Terms and definitions . 8
4 List of filler metals . 8
Annex A (normative) Products procurement specifications . 12
A.1 15CrMoV6 (15CDV6) . 12
A.2 NiCr15Fe (Inconel 600, NC15Fe) . 13
A.3 NiCr19CoNb (René 220, NC19KNb) . 14
A.4 X12CrNiMoV12 (Jethete M152, Z12CNDV12) . 15
A.5 Ti15Mo3Al3Nb0.2Si (β21S). 16
A.6 X6CrNiNb20-10 (Z6CNNb20-10) . 17
A.7 CoCr28WNi (Coast Metal 64, KC28WN). 18
A.8 CoMo28CrSi (T800, KD28CS) . 19
A.9 NiCr14CoTiWMo (René 80, NC14KTWD) . 20
A.10 NiCo12CrTaAlW (René 142, NK12CTaAW) . 21
A.11 MgRE3Zn2 (ZRE1, GTr3Z2) . 22
A.12 TiCu2 (TU2) . 23
A.13 X2CrNi18-10 (AISI 304L/Z2CN18-10) . 24
A.14 AlSi7Cu1Mg . 25
A.15 AlSi7Cu1.5Mg . 26
A.16 AlCu5NiCoZr (AU5NKZr) . 27
A.17 X2CrNi20-10 (AISI 308L/Z2CN20-10) . 28
A.18 X6CrNiTi18 (AISI 321/Z6CNT18 or Z10CNT18) . 29
A.19 AlCu5NiTi (AU5NT) . 30
A.20 X15CrNiWSi22-13 (Z15CNWS22-13) . 31
A.21 CoCr30W12Fe (KC30W12Fe) . 32
A.22 MgZn4RE (GZ4TR – RZ5) . 33
A.23 MgAg2,5RE (GAg2.5TR — Elektron MSR) . 34
A.24 NiCr16CoAlTi (NC16KAT — Inconel 738) . 35
A.25 8Mn5Si3 (8M5S3) . 36
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A.26 12Mn4Si (12M4S) . 37
A.27 E-35CrMoV20 (E-35CDV20) . 38
A.28 GTh3Z2 (ZT1) . 39
A.29 AlCu5MgTi (AU5GT) . 40
A.30 AlSi7Mg0.3 (AS7G03) . 41
A.31 AlSi2CuNi (AS2UN) . 42
A.32 5083 (AG4,5MC) . 43
A.33 5086 (AG4MC) . 44


3

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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
European foreword
This document (prEN 4877-002:2021) has been prepared by the Aerospace and Defence Industries
Association of Europe — Standardization (ASD-STAN).
After enquiries and votes carried out in accordance with the rules of this Association, this document has
received the approval of the National Associations and the Official Services of the member countries of
ASD-STAN, prior to its presentation to CEN.
This document is currently submitted to the CEN Enquiry.
4

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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
1 Scope
This document defines a list of procurement specifications and standards for welding products
authorized for the welding of parts.
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 3883, Aerospace series - Heat resisting alloy NI-WH2301 (NiCr22Fe19Mo9Co2) - Filler metal for welding
EN 3884, Aerospace series - Heat resisting alloy NI-WH2601 (NiCr19Nb5Mo3Ti) - Filler metal for welding
EN 3885, Aerospace series - Heat resisting alloy NI-WH3601 (NiCr22Mo9Nb4) - Filler metal for welding
EN 3887, Aerospace series - Heat resisting alloy CO-WH4101 (CoCr20W15Ni) - Filler metal for welding
EN 3888, Aerospace series - Heat resisting alloy CO-WH1402 (CoCr22Ni22W15) - Filler metal for welding
EN 3889, Aerospace series - Steel FE-WM3801 (X5CrNiCu17-4) - Filler metal for welding
EN 3892, Aerospace series - Titanium alloy TI-W64001 - Filler metal for welding
EN 3894, Aerospace series - Heat resisting alloy NI-WD3201 (NiMo25Fe6Cr5) - Filler metal for welding
EN 4329, Aerospace series - Heat resisting alloy NI-WH0001 (NiCr20) - Filler metal for welding - Wire and
rod
EN 4331, Aerospace series - Steel FE-WL1804 (25CrMnMo4-2-2) - Filler metal for welding - Wire and rod
EN 4332, Aerospace series - Steel FE-WL1805 (8CrMnMo12-4-9) - Filler metal for welding - Wire and rod
EN 4340, Aerospace series - Magnesium alloy MG-W68001 - Filler metal for welding - Wire and rod
EN 4683, Aerospace series - Steel FE-WM 3504 (X4CrNiMo16-5-1) - Air melted - Filler metal for welding -
Wire and rod
prEN 4877-001:20211, Aerospace series — Filler metals for welding — Part 001: Technical specification
ISO 14343, Welding consumables — Wire electrodes, strip electrodes, wires and rods for arc welding of
stainless and heat resisting steels — Classification
ISO 18273, Welding consumables — Wire electrodes, wires and rods for welding of aluminium and
aluminium alloys — Classification
ISO 18274, Welding consumables — Solid wire electrodes, solid strip electrodes, solid wires and solid rods
for fusion welding of nickel and nickel alloys — Classification
ISO 21952, Welding consumables — Wire electrodes, wires, rods and deposits for gas shielded arc welding
of creep-resisting steels — Classification
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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
1
AMS 4189 , Aluminum Alloy Welding Wire 4.1 Si −0.20 Mg (4643)
2
AMS 4190 , Aluminum Alloy, Welding Wire 5.2Si (4043)
2
AMS 4222 , Aluminum Alloy Castings, Sand, Moderate Heat Resistance, 4.0Cu — 2.0Ni — 1.5Mg — 0.12Ti
(242.0P), Solution Heat Treated and Stabilized
2
AMS 4245 , Aluminum Alloy, Welding Wire, 5.0Si — 1.2Cu — 0.50Mg (C355.0)
2
AMS 4246 , Aluminum Alloy, Welding Wire, 7.0Si — 0.52Mg (357)
2
AMS 4391 , Magnesium Alloy Welding Wire 2.8Nd 1.4Gd 0.4Zn 0.6Zr (EV31A)
2
AMS 4393 , Magnesium Alloy Welding Wire 4.0Y 2.3Nd 0.7Zr (WE43B)
2
AMS 4398 , Magnesium Alloy Welding Wire 8.7Al 0.70Zn 0.26Mn (AZ91E)
2
AMS 4439 , Magnesium Alloy Castings, 4.2Zn — 1.2 Rare Earths — 0.7Zr (ZE41A-T5), Precipitation Heat
Treated
2
AMS 4952 , Titanium Alloy Welding Wire 6Al – 2Sn – 4Zr – 2Mo
2
AMS 4953 , Titanium Alloy Welding Wire 5Al – 2.5Sn
2
AMS 4954 , Titanium Alloy Welding Wire 6Al – 4V
2
AMS 4956 , Titanium Alloy Welding Wire 6Al – 4V, Extra Low Interstitial Environment Controlled
2
AMS 5675 , Nickel Alloy, Corrosion and Heat Resistant, Welding Wire, 70Ni — 2.4Mn — 15.5Cr — 3.0Ti —
7.0Fe
2
AMS 5676 , Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire 80Ni — 20Cr
2
AMS 5680 , Steel, Corrosion and Heat-Resistant, Welding Wire 18.5Cr — 11Ni — 0.40Cb (Nb) (SAE 30347)
2
AMS 5692 , Steel, Corrosion and Heat-Resistant, Welding Wire 19Cr — 12.5Ni — 2.5Mo
2
AMS 5694 , Steel, Corrosion and Heat-Resistant, Welding Wire, 27Cr — 21.5Ni
2
AMS 5776 , Steel, Corrosion and Heat-Resistant, Welding Wire 12.5Cr (SAE 51410)
2
AMS 5784 , Steel, Corrosion and Heat-Resistant, Welding Wire 29Cr — 9.5Ni
2
AMS 5786 , Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire 62.5Ni — 5.0Cr — 24.5Mo — 5.5Fe
2
AMS 5789 , Cobalt Alloy, Corrosion and Heat-Resistant, Welding Wire, 54Co — 25.5Cr — 10.5Ni — 7.5W
2
AMS 5794 , Iron Alloy, Corrosion and Heat-Resistant, Welding Wire, 31Fe — 21Cr — 20Ni — 20Co —
3.0Mo — 2.5W — 1.0Cb — 0.15N, Annealed
2
AMS 5796 , Cobalt Alloy, Corrosion and Heat-Resistant, Welding Wire 52Co — 20Cr — 10Ni −15W

1
Published by Society of Automotive Engineers (SAE), available at: https://www.sae.org/
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2
AMS 5798 , Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire 47.5Ni — 22Cr — 1.5Co — 9.0Mo —
0.60W — 18Fe
2
AMS 5800 , Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire, 54Ni — 19Cr — 11Co — 10Mo —
3.2Ti — 1.5Al — 0.006B, Vacuum Induction Melted
2
AMS 5801 , Cobalt Alloy, Corrosion and Heat-Resistant, Welding Wire, 39Co — 22Cr — 22Ni — 14.5W —
0.07La
2
AMS 5802 , Iron-Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire 41Fe — 37.5Ni — 14Co —
4.8Cb (Nb) — 1.5Ti Vacuum Melted, Low Expansion
2
AMS 5805 , Steel, Corrosion and Heat Resistant, Welding Wire 15Cr — 25.5Ni — 1.2Mo — 2.1Ti —
0.004B — 0.30V Vacuum Induction Melted, Environment Controlled Packaging
2
AMS 5812 , Steel, Corrosion and Heat Resistant, Welding Wire 15Cr — 7.1Ni — 2.4Mo — 1.0Al Vacuum
Induction Melted
2
AMS 5821 , Steel, Corrosion-Resistant, Welding Wire 12Cr (SAE 51410 Modified) Ferrite Control Grade
2
AMS 5825 , Steel, Corrosion-Resistant, Welding Wire 16.4Cr — 4.8Ni — 0.22Cb(Nb) — 3.6Cu
2
AMS 5828 , Nickel Alloy, Corrosion and Heat Resistant, Welding Wire 57Ni — 19.5Cr — 13.5Co — 4.2Mo —
3.1Ti — 1.4Al — 0.006B Vacuum Induction Melted, Solution Heat Treated
2
AMS 5829 , Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire 56Ni — 19.5Cr — 16.5Co — 2.5Ti —
1.5Al Vacuum Induction Melted
2
AMS 5832 , Nickel Alloy, Corrosion and Heat Resistant, Welding Wire 52.5Ni — 19Cr — 3.0Mo —
5.1Cb(Nb) — 0.90Ti — 0.50Al — 18Fe Consumable Electrode or Vacuum Induction Melted
2
AMS 5836 , Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire 72Ni — 3.0Mn — 20Cr — 2.5Cb(Nb)
2
AMS 5837 , Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire 62Ni — 21.5Cr — 9.0Mo —
3.7Cb(Nb)
2
AMS 5838 , Nickel Alloy, Corrosion and Heat-Resistant, Welding Wire, 65Ni — 16Cr — 15Mo — 0.30Al —
0.06La
2
AMS 4951 , Titanium Welding Wire Commercially Pure Environment Controlled Packaging
AMS 5966, Nickel Alloy, Corrosion and Heat Resistant, Welding Wire, 50Ni — 20Cr — 20Co — 5.9Mo —
2.2Ti — 0.45AI, Consumable Electrode or Vacuum Induction Melted
2
AMS 6458 , Steel, Welding Wire 0.65Si — 1.25Cr — 0.50Mo — 0.30V (0.28 — 0.33C) Vacuum Melted,
Environment Controlled Packaging
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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
3 Terms and definitions
No terms and definitions are listed in this document.
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 http://www.iso.org/obp
4 List of filler metals
Table 1
Designation Specifications or standards for procurement
Aluminium base alloys
AMS 4191
AU6MT
ISO 18273 — S Al 2319
AMS 4190
AlSi5
ISO 18273 — S Al 4043
AMS 4189
AlSi4
ISO 18273 — S Al 4643
AG5MC ISO 18273 — S Al 5356
5083 (AG4,5MC) Specifications are given in Table A.32.
5086 (AG4MC) Specifications are given in Table A.33.
AU4NGT (242.0P) AMS 4222
AS7G06 (357) AMS 4246
AlSi7Cu1Mg Specifications are given in Table A.14.
AlSi7Cu1.5Mg Specifications are given in Table A.15.
AS5U1G (C355.0) AMS 4245
AlCu5NiCoZr (AU5NKZr) Specifications are given in Table A.16.
AlCu5NiTi (AU5NT) Specifications are given in Table A.19.
AG3 ISO 18273 — S Al 5754
AlCu5MgTi (AU5GT) Specifications are given in Table A.29.
AlSi7Mg0.3 (AS7G03) Specifications are given in Table A.30.
AlSi2CuNi (AS2UN) Specifications are given in Table A.31.
Magnesium base alloys
EN 4340
MgRE3Zn2 (ZRE1, GTr3Z2)
Specifications are given in Table A.11.
GNd2.8Gd1.4 (EV31A) AMS 4391
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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
Designation Specifications or standards for procurement
GA9 (AZ91E) AMS 4398
Specifications are given in Table A.22.
MgZn4RE (GZ4TR — RZ5)
AMS 4439 only for chemical composition, completed by
requirements given in Table A.22.
MgAg2,5RE (GAg2.5TR — Specifications are given in Table A.23.
Elektron MSR)
GY4TR3ZR (WE43) AMS 4393
GTh3Z2 (ZT1) Specifications are given in Table A.28.
Cobalt base alloys
CoCr28WNi (Coast Metal 64, Specifications are given in Table A.7.
KC28WN)
CoMo28CrSi (T800, KD28CS) Specifications are given in Table A.8.
KC25NW (HS 31) AMS 5789
AMS 5801
KCN22W (HA 188)
EN 3888
AMS 5796 for welding classes Bx and Cx
KC20WN (HS 25)
EN 3887 for welding classes Ax, Bx and Cx
CoCr30W12Fe (KC30W12Fe) Specifications are given in Table A.21.
Nickel base alloys
NC20K14 (Waspaloy) AMS 5828
NCK20D (C263) AMS 5966
NCK20TA (Nimonic 90) AMS 5829
NC19KDTA (Rene 41) AMS 5800
NC16Fe7TM (Inconel 92) AMS 5675
NiCr15Fe (Inconel 600, Specifications are given in Table A.2.
NC15Fe)
NiCr19CoNb (René 220, Specifications are given in Table A.3.
NC19KNb)
NiCr14CoTiWMo (René 80, Specifications are given in Table A.9.
NC14KTWD)
NiCo12CrTaAlW (René 142, Specifications are given in Table A.10.
NK12CTaAW)
AMS 5832
NC19FeNb (Inconel 718)
EN 3884
AMS 5837
NC22DNb (Inconel 625)
EN 3885
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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
Designation Specifications or standards for procurement
AMS 5798 for welding classes Bx and Cx
NC22FeD (Hastelloy X)
EN 3883 for welding classes Ax, Bx and Cx
AMS 5786
ND24FeC (Hastelloy W)
EN 3894
NiCr16CoAlTi (NC16KAT – Specifications are given in Table A.24.
Inconel 738)
AMS 5676
NC20
EN 4329
AMS 5836
NC21MNb (Inconel 82)
ISO 18274 — S Ni 6082
NC22KDA (Inconel 617) ISO 18274 — S Ni 6617
NC22W14 (HS230) ISO 18274 – S Ni 6231
NCD15 (Hastelloy S) AMS 5838
NC25D ISO 18274 — S Ni 6205
Low-alloy steels
15CrMoV6 (15CDV6) Specifications are given in Table A.1.
30CDV6 (0.28–0.33C) AMS 6458
8CD12 EN 4332
25CD4 EN 4331
8Mn5Si3 (8M5S3) Specifications are given in Table A.25.
12Mn4Si (12M4S) Specifications are given in Table A.26.
E-35CrMoV20 (E-35CDV20) Specifications are given in Table A.27.
11CD1S (14CD4–04) ISO 21952 code CrMo1Si
High-alloy steels
Z10CNM29–9 (29.9) AMS 5784
Z10CNNb18 (AISI 347) AMS 5680
Z12CN25 (AISI 310) AMS 5694
Z12CNKDW20 (N155) AMS 5794
Z6CND17 (AISI 316) AMS 5692
Z2CND17 – Z3CND18–12–2 – ISO 14343-B – SS316L
Z2CND18–12 – Z2CND18–10
(AISI 316L)
E-Z3NCT25 (A286 mod.) AMS 5805
X12CrNiMoV12 (Jethete M152, Specifications are given in Table A.4.
Z12CNDV12)
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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
Designation Specifications or standards for procurement
X6CrNiNb20–10 (Z6CNNb20– Specifications are given in Table A.6.
10)
X2CrNi18–10 Specifications are given in Table A.13.
(AISI 304L/Z2CN18–10)
X2CrNi20–10 Specifications are given in Table A.17.
(AISI 308L/Z2CN20–10)
X6CrNiTi18 (AISI 321/Z6CNT18 Specifications are given in Table A.18.
or Z10CNT18)
AMS 5825
Z5CNU17–04 (17–4PH)
EN 3889
AMS 5821
Z12C13 (AISI 410)
AMS 5776
Z6C13 (AISI 403) AMS 5776
Z8CND 17-04 (APX4) EN 4683
Z8CND15 AMS 5812
Z4NK38Nb (Incoloy 909) AMS 5802
X15CrNiWSi22–13 Specifications are given in Table A.20.
(Z15CNWS22–13)
Titanium base alloys
T40 (IMI 125) AMS 4951
Ti15Mo3Al3Nb0.2Si (β21S) Specifications are given in Table A.5.
TiCu2 (TU2) Specifications are given in Table A.12.
AMS 4954
TA6V (Ti6.4)
EN 3892
TA6V ELI (Ti6.4 ELI) AMS 4956
TA5E (IMI 317) AMS 4953
TA6Zr4DE (Ti6.2.4.2) AMS 4952
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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
Annex A
(normative)

Products procurement specifications
A.1 15CrMoV6 (15CDV6)
Table A.1
Designation 15CrMoV6
Chemical composition Element Fe C Cr Mo V Mn Si S
Min. 0,12 1,25 0,8 0,20 0,8 — —
Base
Max. 0,18 1,50 1,00 0,30 1,10 0,20 0,015
Element P — — — — — — —
Min. — — — — — — — —
Max. 0,020 — — — — — — —
Form b
Copper plated wires or non-copper plated wires
Technical specification EN 4877-001
 Copper plated wires Non-copper plated wires
Dimension(s) 0,5 mm to 8 mm diameter, 0,5 mm to 8 mm diameter,
according to the order according to the order
requirement. requirement.
Method of melting — —
Cold drawn, treated
Method of production
Cold drawn, treated
(750 °C/air or equivalent
(750 °C/air or equivalent
treatment), descaled and
treatment), descaled
copper plated
Product appearance According to EN 4877-001. According to EN 4877-001.
a
According to EN 4877-001. According to EN 4877-001.
Batch uniformity
Dimensional inspection According to EN 4877-001. According to EN 4877-001.
Spiral test According to EN 4877-001. According to EN 4877-001.
Bend diameter test According to EN 4877-001. According to EN 4877-001.
a
According to EN 4877-001. According to EN 4877-001.
Capacity for melting
Frequency 1 per casting Chemical composition Chemical composition
of
1 per batch Spiral test Spiral test
inspections
10 % of products Product appearance Product appearance
and testings
Dimensional inspection Dimensional inspection
1 time per spool Bend diameter test Bend diameter test
100 % of products — —
a
Under supply source guarantee.
b
The mention “copper plated” or “non-copper plated” shall be specified in the order.
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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
A.2 NiCr15Fe (Inconel 600, NC15Fe)
Table A.2
Designation NiCr15Fe
Chemical composition Element Ni Cr Fe Mn Co Si Ti Cu
Min. 14,00 6,00 — — — — —
Base
Max. 17,00 10,00 1,00 1,00 0,50 0,50 0,5
Element Al C S — — — — —
Min. — — — — — — — —
Max. 0,35 0,15 0,015 — — — — —
Form Wires
Technical specification EN 4877-001
 Wires
Dimension(s) 0,5 mm to 8 mm diameter, according to the order requirement.
Method of melting —
Method of production Cold drawn, softened, descaled
Product appearance According to EN 4877-001.
a
According to EN 4877-001.
Batch uniformity
Dimensional inspection According to EN 4877-001.
Spiral test According to EN 4877-001.
Bend diameter test According to EN 4877-001.
a
According to EN 4877-001.
Capacity for melting
Frequency 1 per casting Chemical composition
of
1 per batch Spiral test
inspections
and testings 10 % of products Product appearance
Dimensional inspection
1 time per spool Bend diameter test
100 % of products —
a
Under supply source guarantee.
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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
A.3 NiCr19CoNb (René 220, NC19KNb)
Table A.3
Designation NiCr19CoNb
Chemical Element Ni Cr Co Nb Ta Mo Ti Al
composition
Min. 18,00 11,00 5,00 3,00 3,00 0,90 0,40
Base
Max. 20,00 13,00 5,50 3,50 3,40 1,10 0,60
Element C B Cu Si Zr Fe Mn P
Min. 0,02 0,003 — — — — — —
Max. 0,04 0,005 0,10 0,05 0,010 0,30 0,05 0,005
Element Mg S N O — — — —
Min. — — — — — — — —
Max. 0,004 0,002 0,0035 0,003 — — — —
Form Wires
Technical specification EN 4877-001
 Wires
Dimension(s) 0,5 mm to 8 mm diameter, according to the order requirement.
Method of melting —
Method of production Green material or clean scraps remelting
Product appearance According to EN 4877-001.
a
According to EN 4877-001.
Batch uniformity
Dimensional inspection According to EN 4877-001.
Spiral test According to EN 4877-001.
Bend diameter test According to EN 4877-001.
a
According to EN 4877-001.
Capacity for melting
Frequency 1 per casting Chemical composition
of
1 per batch Spiral test
inspections
and testings
10 % of Product appearance
products
Dimensional inspection
1 time per
Bend diameter test
spool
100 % of
—
products
a
Under supply source guarantee.
14

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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
A.4 X12CrNiMoV12 (Jethete M152, Z12CNDV12)
Table A.4
Designation X12CrNiMoV12
Chemical composition Element Fe C Cr Ni Mo V Mn Cu
Min. 0,08 11,00 2,00 1,50 0,25 0,50 —
Base
Max. 0,13 12,50 3,00 2,00 0,40 0,90 0,50
Element N Si P S — — — —
Min. 0,020 — — — — — — —
Max. 0,040 0,35 0,030 0,025 — — — —
Form Wires
Technical specification EN 4877-001
 Wires
Dimension(s) 0,5 mm to 8 mm diameter, according to the order requirement.
Method of melting —
Method of production Cold drawn, treated (690 °C/air or equivalent treatment),
descaled
Product appearance According to EN 4877-001.
a
According to EN 4877-001.
Batch uniformity
Dimensional inspection According to EN 4877-001.
Spiral test According to EN 4877-001.
Bend diameter test According to EN 4877-001.
a
According to EN 4877-001.
Capacity for melting
Frequency 1 per casting Chemical composition
of
1 per batch Spiral test
inspections
and testings 10 % of products Product appearance
Dimensional inspection
1 time per spool Bend diameter test
100 % of products —
a
Under supply source guarantee.
15

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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
A.5 Ti15Mo3Al3Nb0.2Si (β21S)
Table A.5
Designation Ti15Mo3Al3Nb0.2Si
Chemical composition Element Ti Mo Al Nb Si O Fe C
Min. 14,00 2,5 2,4 0,15 0,11 0,20 —
Base
Max. 16,00 3,5 3,2 0,25 0,15 0,40 0,05
Element N H Other elements (each) Other elements (total)
Min. — — — —
Max. 0,05 0,015 0,10 0,30
Form Wires
Technical specification EN 4877-001
 Wires
Dimension(s) 0,5 mm to 8 mm diameter, according to the order requirement.
Method of melting —
Method of production Cold drawn, softened, descaled
Product appearance According to EN 4877-001.
a
According to EN 4877-001.
Batch uniformity
Dimensional inspection According to EN 4877-001.
Spiral test According to EN 4877-001.
Bend diameter test According to EN 4877-001.
a
According to EN 4877-001.
Capacity for melting
Frequency 1 per casting Chemical composition
of
1 per batch Spiral test
inspections
and testings 10 % of products Product appearance
Dimensional inspection
1 time per spool Bend diameter test
100 % of products —
a
Under supply source guarantee.
16

---------------------- Page: 18 ----------------------
oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
A.6 X6CrNiNb20-10 (Z6CNNb20-10)
Table A.6
Designation X6CrNiNb20–10
Chemical composition Element Fe Cr Ni Mn Si Cu Mo C
Min. 19,00 9,00 1,00 0,30 — — —
Base
Max. 20,00 10,00 2,00 0,65 0,40 0,40 0,06
Element P S Nb — — — — —
Min. — — 12 × C — — — — —
Max. 0,03 0,015 0,090 — — — — —
Form Wires
Technical specification EN 4877-001
 Wires
Dimension(s) 0,5 mm to 8 mm diameter, according to the order requirement.
Method of melting —
Method of production Cold drawn, softened, descaled
Product appearance According to EN 4877-001.
a
According to EN 4877-001.
Batch uniformity
Dimensional inspection According to EN 4877-001.
Spiral test According to EN 4877-001.
Bend diameter test According to EN 4877-001.
a
According to EN 4877-001.
Capacity for melting
Frequency 1 per casting Chemical composition
of
1 per batch Spiral test
inspections
and testings 10 % of products Product appearance
Dimensional inspection
1 time per spool Bend diameter test
100 % of products —
a
Under supply source guarantee.
17

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oSIST prEN 4877-002:2022
prEN 4877-002:2021 (E)
A.7 CoCr28WNi (Coast Metal 64, KC28WN)
Table A.7
Designation CoCr28WNi
Chemical composition Element Co Cr Si Fe C W Ni O
Min. 26,00 — — 0,70 18,00 4,00 —
Base
Max. 30,00 1,00 3,00 1,00 21,00 6,00 (*)
Element V B Mn
...