77 - METALLURGY

Corrosion of metals and alloys — Testing methods for corrosion of conducting alloys in AC electric current condition

ISO/TR 22801:2026(Main)

This document specifies testing methods for alternative current (AC) influenced corrosion of conducting alloys. The methods are applicable for testing the corrosion rate of specific conducting metals and alloys for high-voltage AC electric power transmission systems exposed to atmosphere. This document introduces corrosion testing methods for comparative study of corrosion rate of conducting materials such as aluminium, copper and their alloys.

Technical report
11 pages
English language
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06-May-2026
77.060
ISO/TC 156

Corrosion of metals and alloys — Accelerated testing involving cyclic exposure to salt mist, dry and wet conditions

ISO 14993:2026(Main)

This document specifies the apparatus and test procedure to be used when conducting accelerated corrosion tests for the comparative quality evaluation of metallic materials with or without permanent corrosion protection or temporary corrosion protection in salt-contaminated outdoor environments. The test involves cyclic exposure of the specimens to neutral salt mist, “dry” and “wet” conditions. The type of test specimen and the exposure period are not specified. The particular advantages of this test over common accelerated tests such as the neutral salt spray (NSS) test lie in its ability to better reproduce the corrosion that occurs in outdoor salt-contaminated environments. This document is applicable to: metals and their alloys; metallic coatings (anodic and cathodic); conversion coatings; anodic oxide coatings; organic coatings on metallic materials. NOTE Methods of test for coatings to determine their resistance, in the presence of scribe marks through to the substrate, to various cyclic corrosion conditions which include the condensation of water on the test specimens during periods of humidity are given in ISO 11997-1.

Standard
15 pages
English language
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Standard
16 pages
French language
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05-May-2026
77.060
ISO/TC 156

Hot-rolled steel sections — Dimensions, sectional properties and tolerances — Part 1: Angles, sloping flange channels and sloping flange beams

ISO 657-1:2026(Main)

This document specifies requirements for dimensions, sectional properties and tolerances for hot-rolled sections as follows: equal angle LE (L section); unequal angle LU (L section); sloping flange channel US (U section); sloping flange I beam IS(I section). This document is used together with technical delivery conditions especially, but is not limited, ISO 630-1, ISO 630-2, ISO 630-3, ISO 630-5 and ISO 630-6.

Standard
24 pages
English language
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Cold-reduced tinmill products — Blackplate

ISO 11951:2026(Main)

This document specifies requirements for single and double cold-reduced blackplate in the form of coils which are generally intended for manufacturing electrolytic tinplate or electrolytic chromium/chromium oxide-coated steel (ECCS) according to ISO 11949[1] or ISO 11950[2]. This document applies to: — single cold-reduced blackplate which is generally specified in nominal thicknesses that are multiples of 0,005 mm from 0,150 mm up to and including 0,600 mm; — double cold-reduced blackplate which is generally specified in nominal thicknesses that are multiples of 0,005 mm, from 0,100 mm up to and including 0,390 mm. This document applies to coils in nominal minimum rolling widths of 600 mm1) with either trimmed or untrimmed edges. 1)Nominal minimum rolling widths of 500 mm may be applied by agreement between the purchaser and the manufacturer.

Standard
21 pages
English language
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Cold-reduced tinmill products — Electrolytic tinplate

ISO 11949:2026(Main)

This document specifies requirements for single and double cold-reduced low-carbon mild steel electrolytic tinplate in the form of sheets or coils. Single cold-reduced tinplate is generally specified in nominal thicknesses that are multiples of 0,005 mm, from 0,150 mm up to and including 0,600 mm. Double cold-reduced tinplate is generally specified in nominal thicknesses that are multiples of 0,005 mm, from 0,100 mm up to and including 0,390 mm. This document applies to coils and sheets cut from coils in nominal minimum rolling widths of 600 mm.1) 1)Nominal minimum rolling widths of 500 mm can be applied by agreement between the purchaser and the manufacturer.

Standard
36 pages
English language
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Cold-reduced tinmill products — Electrolytic chromium/chromium oxide-coated steel

ISO 11950:2026(Main)

This document specifies requirements for single and double cold-reduced electrolytic chromium/chromium oxide-coated steel (ECCS) in the form of sheets or coils. Single cold-reduced ECCS is generally specified in nominal thicknesses that are multiples of 0,005 mm, from 0,150 mm up to and including 0,600 mm. Double cold-reduced ECCS is generally specified in nominal thicknesses that are multiples of 0,005 mm, from 0,100 mm up to and including 0,390 mm. This document applies to coils and sheets cut from coils in nominal minimum rolling widths of 600 mm.1) 1) Nominal minimum rolling widths of 500 mm may be applied by agreement between the purchaser and the manufacturer.

Standard
32 pages
English language
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SIST EN ISO 14577-5:2026(Main)

Metallic materials - Instrumented indentation test for hardness and materials parameters - Part 5: Linear elastic dynamic instrumented indentation testing (DIIT) (ISO 14577-5:2022)

EN ISO 14577-5:2026

This document specifies the method of linear elastic dynamic instrumented indentation test for determination of indentation hardness and indentation modulus of materials showing elastic-plastic behaviour when oscillatory force or displacement is applied to the indenter while the load or displacement is held constant at a prescribed target value or while the indenter is continuously loaded to a prescribed target load or target depth.

Standard
19 pages
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30-Dec-2025
09-Apr-2026
77.040.10
PKG

Aluminium and aluminium alloys - Chemical composition and form of wrought products - Part 3: Chemical composition and form of products

SIST EN 573-3:2026(Main)

EN 573-3:2026

This document specifies the chemical composition limits of wrought aluminium and wrought aluminium alloys and form of products.
NOTE The chemical composition limits of aluminium and aluminium alloys specified herein are completely identical with those registered with the Aluminium Association, 1525, Wilson Boulevard, Suite 600, Arlington, VA 22209, USA, for the corresponding alloys.

Standard
52 pages
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09-Jun-2025
08-Apr-2026
77.040.30
77.120.10
77.150.10
INEK

Metallic materials — Charpy pendulum impact test — Part 4: Testing of miniature Charpy-type V-notch test pieces

ISO 148-4:2026(Main)

This document specifies the pendulum impact test method on miniature Charpy-type V-notch test pieces of metallic materials. This document does not cover instrumented impact testing of miniature Charpy-type V-notch test pieces, which is specified in ISO 14556:2023, Annex D[1]. This document can be applied, by agreement, to other impact testing machines, such as drop-weight towers or high-speed servo-hydraulic machines. The user should be aware that data obtained from miniature test pieces are not directly comparable to those obtained from full-size standard Charpy V-notch test pieces[2],[3].

Standard
8 pages
English language
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Draft
10 pages
French language
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SIST EN ISO 26203-1:2026(Main)

Metallic materials - Tensile testing at high strain rates - Part 1: Elastic-bar-type systems (ISO 26203-1:2025)

EN ISO 26203-1:2025

This document specifies guidelines for testing metallic sheet materials to determine the stress-strain characteristics at high strain rates. This document covers the use of elastic-bar-type systems.
This test method covers the strain-rate range above 102 s−1.
NOTE This testing method is also applicable to tensile test-piece geometries other than the flat test pieces considered here.

Standard
38 pages
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30-Oct-2024
07-Apr-2026
77.040.10
PKG

Corrosion of metals and alloys — Test method for microbiologically influenced corrosion of oil and gas transmission pipelines

ISO 21055:2026(Main)

This document specifies a laboratory test method for microbiologically influenced corrosion (MIC) of oil and gas transmission pipelines, including the principle, apparatus, sources of strains, solutions, specimens, sterilization, procedure, results and report. This document applies to the MIC test of metals and alloys for internal surfaces of oil and gas transmission pipelines.

Standard
19 pages
English language
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Aluminium and aluminium alloys - Chemical composition and form of wrought products - Part 3: Chemical composition and form of products

EN 573-3:2026(Main)

SIST EN 573-3:2026

Standard
52 pages
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SIST EN ISO 18203:2026(Main)

Steel - Determination of the thickness of surface-hardened layers (ISO 18203:2026)

EN ISO 18203:2026

This document specifies a method of measuring the case hardening depth, surface hardening depth, nitriding hardness depth and total thickness of surface hardening depth obtained using, e.g. thermal (flame and induction hardening, electron beam hardening, laser beam hardening, etc.) or thermochemical (carbonitriding, carburizing and hardening, hardening and nitriding, etc.) treatment.

Standard
21 pages
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10-Jul-2025
15-Mar-2026
77.040.99
77.080.20
PKG

SIST EN ISO 3325:2026(Main)

Sintered metal materials, excluding hardmetals - Determination of transverse rupture strength (ISO 3325:2026)

EN ISO 3325:2026

This document specifies a method for the determination of the transverse rupture strength of sintered metal materials, excluding hardmetals. The method is particularly suitable for comparing the sintered strength of a batch of metal powder with that of a reference powder or with a reference strength.
The method is applicable to sintered metal materials, excluding hardmetals, whether they have been subjected to heat treatment after sintering or not, and also to materials that have been sized or coined after sintering.
It is especially suitable for materials having a uniform hardness throughout their section and negligible ductility, i.e. a ductility corresponding to a permanent deformation of less than about 0,5 mm measured between the two supports during the transverse rupture strength determination.
NOTE The permanent deformation can be measured with sufficient precision from the two fragments of the broken or cracked bar by indexing the lower surface. Alternatively, the deflection of a straight line drawn horizontally on the side of the test piece can be measured using an optical instrument such as a measuring microscope or optical comparator.

Standard
11 pages
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29-Sep-2024
22-Feb-2026
77.040.10
77.160
I13

SIST EN ISO 28079:2026(Main)

Hardmetals - Palmqvist toughness test (ISO 28079:2026)

EN ISO 28079:2026

This document specifies a method for measuring the Palmqvist toughness of hardmetals and cermets at room temperature by an indentation method. This document is applicable to a measurement of toughness, called Palmqvist toughness, calculated from the total length of cracks emanating from the corners of a Vickers hardness indentation, and it is intended for use with metal-bonded carbides and carbonitrides (normally called hardmetals, cermets or cemented carbides). The test procedures specified in this document are applicable for use at ambient temperatures, but can be extended to higher or lower temperatures by agreement. The test procedures specified in this document are also applicable for use in a normal laboratory-air environment. This document is not applicable for use in corrosive environments, such as strong acids or seawater.

Standard
19 pages
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29-Sep-2024
22-Feb-2026
77.040.10
77.160
I13

EN ISO 14577-5:2026(Main)

Metallic materials - Instrumented indentation test for hardness and materials parameters - Part 5: Linear elastic dynamic instrumented indentation testing (DIIT) (ISO 14577-5:2022)

SIST EN ISO 14577-5:2026

Standard
19 pages
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1 day

SIST EN ISO 2738:2026(Main)

Sintered metal materials, excluding hardmetals - Permeable sintered metal materials - Determination of density, oil content and open porosity (ISO 2738:2026)

EN ISO 2738:2026

This document specifies methods for determining the density (dry density or fully impregnated density), oil content (related to test piece volume and related to open porosity) and open porosity of permeable sintered metal materials.
This document applies in particular to porous metal bearings and to structural parts produced by pressing and sintering metal powders.

Standard
19 pages
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30-Oct-2024
08-Feb-2026
77.160
I13

Corrosion of metals and alloys — Determination of resistance to stress corrosion cracking of copper and copper-zinc alloys in ammonia vapour

ISO 25018:2026(Main)

This document specifies a method for the determination of resistance to stress corrosion cracking (SCC) of copper and copper-zinc alloys in ammonia vapour. This document covers the method of sampling, the types of specimens, the loading procedure, the type of environment and the interpretation of results. This document is aimed at determining resistance to SCC as a function of the chemical composition, the method of manufacture of copper and copper-zinc alloys. This document applies to wrought copper and copper-zinc alloys in the form of products and parts. This document can be used to rank materials performance and select candidate materials under atmospheres containing ammonia. However, the results of this test should not be considered as an absolute criterion for the quality of alloys. This document specifies a method for exposing test specimens in ammonia vapour coexisting with an aqueous ammonia solution and specifies the environmental conditions and test procedures. This document specifies two methods of loading: under constant total strain; under constant load. It does not cover slow strain rate test methods and determination of maximum admissible stress by the method of permanent deformation for copper and copper-zinc alloys, although an effort is now being made to apply such methods to these alloys (see ISO 7539-7).

Standard
9 pages
English language
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05-Feb-2026
77.060
ISO/TC 156

Aerospace series - Steel 40CrMoV12 (1.8523) - Consumable electrode remelted - Hardened and tempered - Forgings - De ≤ 50 mm - 1 250 MPa ≤ Rm ≤ 1 400 MPa

SIST EN 4098:2026(Main)

EN 4098:2026

This document specifies the requirements relating to:
Steel 40CrMoV12 (1.8523)
Consumable electrode remelted
Hardened and tempered
Forgings
De ≤ 50 mm
1 250 MPa ≤ Rm ≤ 1 400 MPa
for aerospace applications.
W.nr: 1.8523.
ASD-STAN designation: FE-PL1507.

Standard
9 pages
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1 day

30-Jul-2024
04-Feb-2026
49.025.10
77.140.85
I13

Steel - Determination of the thickness of surface-hardened layers (ISO 18203:2026)

EN ISO 18203:2026(Main)

SIST EN ISO 18203:2026

Standard
21 pages
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ISO 209:2024/Amd 1:2026(Amendment)

Wrought aluminium and aluminium alloys — Chemical composition — Amendment 1

Standard
1 page
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Standard
1 page
French language
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Steel and cast iron — Determination of manganese content — Spectrophotometric method

ISO 629:2026(Main)

This document specifies a spectrophotometric method for the determination of manganese in steel and cast iron. The method is applicable to manganese contents between 0,001 % (mass fraction) and 4,0 % (mass fraction).

Standard
6 pages
English language
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Sintered metal materials, excluding hardmetals - Determination of transverse rupture strength (ISO 3325:2026)

EN ISO 3325:2026(Main)

SIST EN ISO 3325:2026

Standard
11 pages
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Corrosion of metals and alloys — Monitoring method for corrosion states of stainless steel in industrial cooling water

ISO 18971:2026(Main)

This document specifies the method and criteria for monitoring corrosion states of heat exchange tubes, heat exchange plates and other components made of stainless steel in industrial cooling water by combination of polarization resistance and corrosion potential. This document is applicable to the monitoring of the corrosion states of stainless steel in industrial cooling water or similar media, as well as the monitoring of the corrosiveness of industrial cooling water. The cooling water is generally taken from natural water, tap water and reclaimed water. It is applicable to industrial cooling water with pH value of 5,0 to 11,0, temperature of 0 °C to 60 °C, and conductivity higher than 20 μS/cm.

Standard
14 pages
English language
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27-Jan-2026
77.060
ISO/TC 156

Hardmetals - Palmqvist toughness test (ISO 28079:2026)

EN ISO 28079:2026(Main)

SIST EN ISO 28079:2026

Standard
19 pages
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Steel — Determination of the thickness of surface-hardened layers

ISO 18203:2026(Main)

Standard
13 pages
English language
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Standard
14 pages
French language
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Steel wire for mechanical springs — Part 2: Patented cold-drawn non-alloy steel wire

ISO 8458-2:2026(Main)

This document specifies requirements for cold-drawn non-alloy steel wire for the manufacture of mechanical springs for static duty and dynamic duty applications, in accordance with the general requirements of ISO 8458-1.

Standard
10 pages
English language
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Guidance for the application of low-carbon technologies in steel plants

ISO/TR 25088:2026(Main)

This document provides an overview of low-carbon technologies for the entire production process of the iron and steel industry, sets application in sintering, pelletizing, coking, ironmaking, steelmaking, continuous casting, rolling and other production processes. NOTE Low-carbon technologies in the iron and steel industry are constantly evolving. This document describes processes in different stages of maturity. There is heterogeneity in the decarbonization pathways among the steel enterprises. Therefore, not all low-carbon technologies covered in this document are equally applicable to all steel plants. Low-carbon technologies in the iron and steel industry are not limited to those listed in this document. This document will be revised as appropriate as technologies evolve.

Technical report
20 pages
English language
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22-Jan-2026
77.180
SC 21

Steel wire for mechanical springs — Part 1: General requirements

ISO 8458-1:2026(Main)

This document specifies general requirements for steel spring wire of round cross-section, suitable for the manufacture of mechanical springs.

Standard
8 pages
English language
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Steel wire for mechanical springs — Part 3: Oil-hardened and tempered wire

ISO 8458-3:2026(Main)

This document specifies requirements for oil-hardened and tempered carbon and low alloy steel wire, for the manufacture of mechanical springs for static duty and dynamic duty applications, in accordance with the general requirements of ISO 8458-1.

Standard
7 pages
English language
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Hardmetals — Palmqvist toughness test

ISO 28079:2026(Main)

Standard
10 pages
English language
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Standard
11 pages
French language
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Sintered metal materials, excluding hardmetals - Permeable sintered metal materials - Determination of density, oil content and open porosity (ISO 2738:2026)

EN ISO 2738:2026(Main)

SIST EN ISO 2738:2026

Standard
19 pages
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20-Jan-2026
77.160
CEN/SS M11

Sintered metal materials, excluding hardmetals — Determination of transverse rupture strength

ISO 3325:2026(Main)

This document specifies a method for the determination of the transverse rupture strength of sintered metal materials, excluding hardmetals. The method is particularly suitable for comparing the sintered strength of a batch of metal powder with that of a reference powder or with a reference strength. The method is applicable to sintered metal materials, excluding hardmetals, whether they have been subjected to heat treatment after sintering or not, and also to materials that have been sized or coined after sintering. It is especially suitable for materials having a uniform hardness throughout their section and negligible ductility, i.e. a ductility corresponding to a permanent deformation of less than about 0,5 mm measured between the two supports during the transverse rupture strength determination. NOTE The permanent deformation can be measured with sufficient precision from the two fragments of the broken or cracked bar by indexing the lower surface. Alternatively, the deflection of a straight line drawn horizontally on the side of the test piece can be measured using an optical instrument such as a measuring microscope or optical comparator.

Standard
4 pages
English language
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Standard
4 pages
French language
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Sintered metal materials, excluding hardmetals — Permeable sintered metal materials — Determination of density, oil content and open porosity

ISO 2738:2026(Main)

This document specifies methods for determining the density (dry density or fully impregnated density), oil content (related to test piece volume and related to open porosity) and open porosity of permeable sintered metal materials. This document applies in particular to porous metal bearings and to structural parts produced by pressing and sintering metal powders.

Standard
12 pages
English language
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Standard
13 pages
French language
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SIST EN 10253-2:2021+A1:2026(Main)

Butt-welding pipe fittings - Part 2: Non alloy and ferritic alloy steels with specific inspection requirements

EN 10253-2:2021+A1:2025

This document specifies the technical delivery requirements for seamless and welded butt welding fittings (elbows, concentric and eccentric reducers, equal and reducing tees, caps) made of carbon and alloy steel in two test categories which are intended for pressure purposes at room temperature, at low temperature or at elevated temperatures, and for the transmission and distribution of fluids and gases.
It specifies:
a)   type of fittings;
type A: Butt-welding fittings with reduced pressure factor;
type B: Butt-welding fittings for use at full service pressure;
b)   steel grades and their chemical compositions;
c)   mechanical properties;
d)   dimensions and tolerances;
e)   requirements for inspection and testing;
f)   inspection documents;
g)   marking;
h)   protection and packaging.
NOTE   The selection of the appropriate fitting (material, thickness) is the ultimate responsibility of the manufacturer of the pressure equipment (see European Legislation for Pressure Equipment). In the case of a harmonized supporting standard for materials, presumption of conformity to the ESRs is limited to technical data of materials in the standard and does not presume adequacy of the material to a specific item of equipment. Consequently, it is essential that the technical data stated in the material standard be assessed against the design requirements of this specific item of equipment to verify that the ESRs of the PED are satisfied.

Standard
150 pages
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EN ISO 26203-1:2025(Main)

Metallic materials - Tensile testing at high strain rates - Part 1: Elastic-bar-type systems (ISO 26203-1:2025)

SIST EN ISO 26203-1:2026

Standard
38 pages
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SIST EN 4700-003:2026(Main)

Aerospace series - Steel and heat-resisting alloys - Wrought products - Technical specification - Part 003: Tubes

EN 4700-003:2025

This document specifies the requirements for the ordering, manufacture, testing, inspection and delivery of steel and heat-resisting alloy tubes. It is presupposed to be applied when referred to and in conjunction with the EN material standard unless otherwise specified on the drawing, order or inspection schedule.

Standard
32 pages
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30-May-2024
22-Dec-2025
49.025.10
77.140.75
I13

SIST EN 4700-004:2026(Main)

Aerospace series - Steel and heat-resisting alloys - Wrought products - Technical specification - Part 004: Wires

EN 4700-004:2025

This document specifies the requirements for the ordering, manufacture, testing, inspection and delivery of steel and heat-resisting alloy wires. It is presupposed to be applied when referred to and in conjunction with the EN material standard unless otherwise specified on the drawing, order or inspection schedule.

Standard
32 pages
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30-May-2024
22-Dec-2025
49.025.10
77.140.65
I13

SIST EN 4700-002:2026(Main)

Aerospace series - Steel and heat-resisting alloys - Wrought products - Technical specification - Part 002: Bars and sections

EN 4700-002:2025

This document specifies the requirements for the ordering, manufacture, testing, inspection and delivery of steel and heat-resisting alloy bars and sections. It is presupposed to be applied when referred to and in conjunction with the EN material standard unless otherwise specified on the drawing, order or inspection schedule.

Standard
37 pages
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30-May-2024
22-Dec-2025
49.025.10
77.140.60
I13

SIST EN 4700-001:2025(Main)

Aerospace series - Steel and heat-resisting alloys - Wrought products - Technical specification - Part 001: Plates, sheets and strips

EN 4700-001:2025

This document specifies the requirements for the ordering, manufacture, testing, inspection and delivery of steel and heat-resisting (cobalt, nickel and iron-based alloys) alloy plates, sheets and strips. It is presupposed to be applied when referred to and in conjunction with the EN material standard unless otherwise specified on the drawing, order or inspection schedule.

Standard
31 pages
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30-May-2024
22-Dec-2025
49.025.10
77.140.50
I13

Magnetic materials - Classification of surface insulations of electrical steel sheet, strip and laminations

SIST EN 10342:2026(Main)

EN 10342:2025

This document establishes a classification of surface insulations for electrical steel sheet, strip and laminations according to their general composition, relative insulating ability and function.
These surface insulations are either oxide layers or applied coatings.
The purpose of this classification is to create a nomenclature for the various types of surface insulations and to assist users of surface insulations by providing general information about the chemical nature and use of the surface insulations.
It is not the intent of this classification to specify insulation requirements in terms of specific values of surface insulation resistance. Such requirements are to be agreed between the purchaser and the steel producer, where applicable.
The classification is to be used in conjunction with the various specifications for cold rolled electrical steels (see Clause 2).

Standard
8 pages
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24-Dec-2024
22-Dec-2025
29.030
77.140.50
IFEK

SIST EN 4700-005:2026(Main)

Aerospace series - Steel and heat-resisting alloys - Wrought products - Technical specification - Part 005: Forging stocks

EN 4700-005:2025

This document specifies the requirements for the ordering, manufacture, testing, inspection and delivery of steel and heat-resisting alloy forging stock. It is presupposed to be applied when referred to and in conjunction with the EN material standard unless otherwise specified on the drawing, order or inspection schedule.

Standard
29 pages
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30-May-2024
22-Dec-2025
49.025.10
77.140.85
I13

SIST EN 4700-006:2026(Main)

Aerospace series - Steel and heat-resisting alloys - Wrought products - Technical specification - Part 006: Pre-production and production forgings

EN 4700-006:2025

This document specifies the requirements for the ordering, manufacture, testing, inspection and delivery of pre-production and production forgings in steel and heat-resisting alloys.

Standard
33 pages
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30-May-2024
22-Dec-2025
49.025.10
77.140.85
I13

EN 10253-2:2021+A1:2025(Main + Amendment)

Butt-welding pipe fittings - Part 2: Non alloy and ferritic alloy steels with specific inspection requirements

SIST EN 10253-2:2021+A1:2026

Standard
150 pages
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Aerospace series - Heat resisting alloy X6NiCrTiMoV26-15 (1.4980) - Consumable electrode remelted - Solution treated and precipitation treated - Sheets, strips and plates - 0,5 mm ≤ a ≤ 10 mm

SIST EN 3638:2026(Main)

EN 3638:2025

This document specifies the requirements relating to:
Heat-resisting alloy X6NiCrTiMoV26-15 (1.4980)
Consumable electrode remelted
Solution treated and precipitation treated
Sheets, strips and plates
0,5 ≤ a ≤ 10 mm
for aerospace applications.
W.nr: 1.4980.
ASD-STAN designation: FE-PA2601.

Standard
9 pages
English language
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11-Sep-2024
15-Dec-2025
49.025.05
49.025.10
77.140.50
I13

Aerospace series - Steel X5CrNiCu17-4 (1.4542) - Air melted - Solution treated and precipitation treated - Forgings - a or D ≤ 200 mm - Rm ≥ 1 310 MPa

SIST EN 3677:2026(Main)

EN 3677:2025

This document specifies the requirements relating to:
Steel X5CrNiCu17-4 (1.4542)
Air melted
Solution treated and precipitation treated
Forgings
a or D ≤ 200 mm
Rm ≥ 1 310 MPa
for aerospace applications.
W.nr: 1.4542.
ASD-STAN: FE-PM3801.

Standard
9 pages
English language
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1 day

04-Sep-2024
15-Dec-2025
49.025.10
77.140.85
I13

Aerospace series - Steel X5CrNiCu17-4 (1.4542) - Air melted - Solution treated and precipitation treated - Forgings - a or D ≤ 200 mm - Rm ≥ 930 MPa

SIST EN 3678:2026(Main)

EN 3678:2025

This document specifies the requirements relating to:
Steel X5CrNiCu17-4 (1.4542)
Air melted
Solution treated and precipitation treated
Forgings
a or D ≤ 200 mm
Rm ≥ 930 MPa
for aerospace applications.
W.nr: 1.4542.
ASD-STAN: FE-PM3801.

Standard
9 pages
English language
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1 day

04-Sep-2024
15-Dec-2025
49.025.10
77.140.85
I13

Metallic materials — Tensile testing at high strain rates — Part 1: Elastic-bar-type systems

ISO 26203-1:2025(Main)

This document specifies guidelines for testing metallic sheet materials to determine the stress-strain characteristics at high strain rates. This document covers the use of elastic-bar-type systems. This test method covers the strain-rate range above 102 s−1. NOTE This testing method is also applicable to tensile test-piece geometries other than the flat test pieces considered here.

Standard
29 pages
English language
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Standard
29 pages
French language
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Evaluation of centreline segregation of continuously cast slabs

ISO 21224:2025(Main)

This document specifies a procedure for the evaluation of centreline segregation of continuously cast slabs, including sampling, sample preparation and evaluation method. This document is applicable for low carbon steel slabs for pipe production manufactured by continuous casting. These steels have a typical chemical composition as follows (mass percentages): — C ≤ 0,12 % — Mn ≤ 2,0 % — Si ≤ 0,5 % — Ti + Nb + V ≤ 0,2 % The common dimensions of these slabs are in the following ranges: — Slab width: 800 mm to 2 600 mm — Slab thickness: 150 mm to 450 mm The evaluation methods covered by this document are based on macroscopic etching of slab samples followed by visual inspection by means of human eye or camera systems. The procedures for sampling described in 5.1 to 5.3 of this document are applicable to steels slabs in general (e. g. other steel grades or dimensions). However, the etching procedure (see 5.4) in combination with the evaluation methods described in Clause 6 have been developed especially for the application on pipeline steels as given above. Thus, they are not applicable to other steel grades, product types or dimensions without a prior validation. Any extension or modification beyond the scope of this document necessitates a separate agreement between producer and customer.

Standard
19 pages
English language
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