| Name |
Description |
Abstract |
Status |
Publication date |
Edition |
Number of pages |
Technical committee |
ICS |
| ISO 19085-11:2020 |
Woodworking machines — Safety — Part 11: Combined machines |
This document gives the safety requirements and measures for stationary and displaceable combined woodworking machines, having at least two separately usable working units and with manual loading and unloading of the workpiece, hereinafter referred to as "machines". The integrated working units can be of these types only:
— a sawing unit;
— a moulding unit;
— a planing unit.
The machines are designed to cut solid wood and material with similar physical characteristics to wood.
NOTE 1 For the definitions of stationary and displaceable machines, see ISO 19085‑1:2017, 3.4 and 3.5.
This document deals with all significant hazards, hazardous situations and events as listed in Clause 4, relevant to the machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer including reasonably foreseeable misuse. Also, transport, assembly, dismantling, disabling and scrapping phases have been taken into account.
NOTE 2 For relevant but not significant hazards, e.g. sharp edges of the machine frame, see ISO 12100:2010.
This document does apply to machines also equipped with the devices/additional working units listed in the Scopes of ISO 19085‑5:2017, ISO 19085‑6:2017, ISO 19085-7:2019 and ISO 19085-9:2019.
This document does not apply to:
a) machines incorporating only a planing unit and a mortising device;
NOTE 3 Such machines are dealt with in ISO 19085-7:2019.
b) combined machines incorporating a band saw unit;
c) machines with a mortising unit with a separate drive other than the planing unit drive;
d) machines intended for use in potentially explosive atmosphere;
e) machines manufactured before the date of its publication as an International Standard.
|
Published |
2020-03 |
Edition : 1 |
Number of pages : 27 |
Technical Committee |
13.110
Safety of machinery
;
79.120.10
Woodworking machines
|
| ISO 19085-12:2021 |
Woodworking machines — Safety — Part 12: Tenoning/profiling machines |
This document gives the safety requirements and measures for stationary, manually loaded and unloaded:
— single end tenoning machines with manual feed sliding table;
— single end tenoning machines with mechanical feed sliding table;
— single end tenoning and/or profiling machines with mechanical feed;
— double end tenoning and/or profiling machines with mechanical feed, also designed to be automatically loaded/unloaded;
— angular systems for tenoning and profiling with mechanical feed;
with maximum work-piece height capacity of 200 mm for single end machines and 500 mm for double end machines, hereinafter referred to as "machines".
It deals with all significant hazards, hazardous situations and events as listed in Clause 4 relevant to machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer including reasonably foreseeable misuse. Also, transport, assembly, dismantling, disabling and scrapping phases are taken into account.
NOTE For relevant but not significant hazards, e.g. sharp edges of the machine frame, see ISO 12100:2010.
The machines are designed to process in one pass one end or two sides, either opposite or perpendicular to each other, of work-pieces made of:
1) solid wood;
2) materials with similar physical characteristics to wood (see ISO 19085-1:2017, 3.2);
3) fibre-cement, rock/glass wool, gypsum, plasterboard, only with machines with mechanical feed.
It is also applicable to machines fitted with one or more of the following additional working units, whose hazards have been dealt with:
— sanding units;
— fixed or movable work-piece support;
— automatic tool changing;
— automatic work-piece returner;
— glass bead saw unit;
— hinge recessing unit;
— post forming edge pre-cutting;
— boring unit;
— dynamic processing unit;
— sawing unit installed out of the integral enclosure, between machine halves in double end machines;
— foiling unit;
— coating unit;
— grooving unit with milling tool installed out of the integral enclosure, between machine halves;
— brushing unit;
— gluing unit;
— sealing unit;
— dowels inserting unit;
— tongues inserting unit;
— inkjet marking unit;
— laser marking unit;
— labelling unit;
— work-piece back-up device (anti-chipping / anti-splintering device);
— quick tool changing system.
This document does not deal with any hazards related to:
a) systems for automatic loading and unloading of the work-piece to a single machine other than automatic work-piece returner;
b) single machine being used in combination with any other machine (as part of a line);
c) use of tools, other than saw blades or milling tools for grooving, installed between machine halves and out of the integral enclosure in double end machines;
d) use of tools protruding out of the integral enclosure;
e) chemical characteristics of fibre-cement, rock/glass wool, gypsum, plasterboard and their dust.
It is not applicable to machines intended for use in potentially explosive atmosphere nor to machines manufactured prior to its publication.
|
Published |
2021-03 |
Edition : 1 |
Number of pages : 53 |
Technical Committee |
13.110
Safety of machinery
;
79.120.10
Woodworking machines
|
| ISO/DIS 19085-12 |
Woodworking machines — Safety — Part 12: Tenoning/profiling machines |
This document specifies the safety requirements and measures for manually loaded and unloaded
— single end tenoning machines with manual feed sliding table (defined in 3.1),
— single end tenoning machines with mechanical feed sliding table (defined in 3.2),
— single end tenoning and/or profiling machines with mechanical feed (defined in 3.3),
— double end tenoning and/or profiling machines with mechanical feed (defined in 3.4), also designed to be automatically loaded/unloaded,
— angular systems for tenoning and profiling with mechanical feed (defined in 3.5),
with maximum workpiece height capacity of 200 mm for single end machines and 500 mm for double end machines, capable of continuous production use, altogether referred to as “machines”.
It deals with all significant hazards, hazardous situations and events as listed in Annex A, relevant to machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer including reasonably foreseeable misuse. Also, transport, assembly, dismantling, disabling and scrapping phases have been taken into account.
The machines are designed to process in one pass one end or two sides, either opposite or perpendicular to each other, of workpieces made of:
1) solid wood;
2) materials with similar physical characteristics to wood (see ISO 19085 1:2021, 3.2);
3) fibre-cement, rock/glass wool, gypsum, plasterboard, only with machines with mechanical feed.
It is also applicable to machines fitted with one or more of the following devices/additional working units, whose hazards have been dealt with:
— sanding units;
— fixed or movable workpiece support;
— automatic tool changing;
— automatic workpiece returner;
— glass bead saw unit;
— hinge recessing unit;
— post forming edge pre-cutting;
— boring unit;
— dynamic processing unit;
— sawing unit installed out of the integral enclosure, between machine halves in double end machines;
— foiling unit;
— coating unit;
— grooving unit with milling tool installed out of the integral enclosure, between machine halves;
— brushing unit;
— gluing unit;
— sealing unit;
— dowels inserting unit;
— tongues inserting unit;
— inkjet marking unit;
— laser marking unit;
— labelling unit;
— workpiece back-up device (anti-chipping / anti-splintering device);
— quick tool changing system.
This document does not deal with any hazards related to:
a) systems for automatic loading and unloading of the workpiece to a single machine other than automatic workpiece returner;
b) single machine being used in combination with any other machine (as part of a line);
c) use of tools, other than saw blades or milling tools for grooving, installed between machine halves and out of the integral enclosure in double end machines;
d) use of tools protruding out of the integral enclosure;
e) chemical characteristics of fibre-cement, rock/glass wool, gypsum, plasterboard and their dust.
It is not applicable to machines intended for use in potentially explosive atmosphere nor to machines manufactured prior to its publication.
|
Under development |
|
Edition : 2 |
Number of pages : 56 |
Technical Committee |
13.110
Safety of machinery
;
79.120.10
Woodworking machines
|
| ISO 19085-13:2020 |
Woodworking machines — Safety — Part 13: Multi-blade rip sawing machines with manual loading and/or unloading |
This document gives the safety requirements and measures for stationary multi-blade rip sawing machines manually loaded and/or unloaded, hereinafter referred to as "machines", designed to cut solid wood and material with similar physical characteristics to wood.
It deals with all significant hazards, hazardous situations and events as listed in Clause 4 relevant to machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer including reasonably foreseeable misuse. Also, transport, assembly, dismantling, disabling and scrapping phases are taken into account.
NOTE For relevant but not significant hazards, e.g. sharp edges of the machine frame, see ISO 12100:2010.
This document does not deal with specific hazards related to the combination of single machines with any other machine as part of a line.
It is not applicable to machines:
— with all saw blades spindles mounted below the workpiece support/level only;
— intended for use in potentially explosive atmosphere;
— manufactured prior to its publication.
|
Published |
2020-05 |
Edition : 1 |
Number of pages : 40 |
Technical Committee |
13.110
Safety of machinery
;
79.120.10
Woodworking machines
|
| ISO/DIS 19085-13 |
Woodworking machines — Safety — Part 13: Multi-blade rip sawing machines with manual loading and/or unloading |
This document specifies the safety requirements and measures for multi-blade rip sawing machines with manual loading and/or unloading (defined in 3.1) capable of continuous production use, hereinafter referred to also as “machines”, designed to cut solid wood and materials with similar physical characteristics to wood.
It deals with all significant hazards, hazardous situations and events as listed in Annex A, relevant to the machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer including reasonably foreseeable misuse. Transport, assembly, dismantling, disabling and scrapping phases are also taken into account.
This document does not deal with specific hazards related to the combination of single machines with any other machine as part of a line.
It is not applicable to machines:
— with all saw blades spindles mounted below the workpiece support/level only;
— intended for use in potentially explosive atmosphere;
— manufactured prior to its publication.
|
Under development |
|
Edition : 2 |
Number of pages : 44 |
Technical Committee |
13.110
Safety of machinery
;
79.120.10
Woodworking machines
|
| ISO 19085-14:2021 |
Woodworking machines — Safety — Part 14: Four-sided moulding machines |
This document gives the safety requirements and measures for four-sided moulding machines, capable of continuous production use, with a maximum working width of 350 mm and a maximum speed of the integrated workpiece feed of 200 m/min, hereinafter referred to as “machines”, designed to cut solid wood and materials with similar physical characteristics to wood (see ISO 19085-1:2021, 3.2).
It deals with all significant hazards, hazardous situations and events, listed in Annex A, relevant to the machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer; reasonably foreseeable misuse has been considered too. Also, transport, assembly, dismantling, disabling and scrapping phases are taken into account.
It is also applicable to machines fitted with one or more of the following devices / additional working units, whose hazards have been dealt with:
— universal spindle;
— glass bead saw unit;
— fixed or movable workpiece support;
— quick tool changing system;
— laser marking unit;
— automatic workpiece returner;
— in-feed hopper;
— loading magazine;
— unloading table.
This document does not deal with any hazards related to:
a) in-feed devices other than in-feed hopper and loading magazine;
NOTE 1 For mechanical in-feed devices which also prevent access to the in-feed opening, see 6.6.4.
b) out-feed devices other than unloading table, except for hazards related to ejection from the machine due to climb cutting;
c) out-feed of workpieces on machines with feed speed higher than 60 m/min;
NOTE 2 Machines with feed speed higher than 60 m/min are usually combined with mechanical unloading and workpiece transfer systems.
d) machines being used in combination with any other machine (as part of a line).
It is not applicable to machines intended for use in potentially explosive atmosphere and to machines manufactured prior to its publication.
|
Published |
2021-10 |
Edition : 1 |
Number of pages : 45 |
Technical Committee |
13.110
Safety of machinery
;
79.120.10
Woodworking machines
|
| ISO 19085-15:2021 |
Woodworking machines — Safety — Part 15: Presses |
This document gives the safety requirements and measures for stationary manually loaded and unloaded:
— cold presses;
— hot presses;
— bending presses;
— edge/face gluing presses;
— membrane presses;
— embossing presses;
where the pressing force is applied by hydraulic actuators pushing two flat or shaped surfaces against each other, hereinafter referred to as "machines".
It deals with all significant hazards, hazardous situations and events as listed in Clause 4 relevant to machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer including reasonably foreseeable misuse. Also, transport, assembly, dismantling, disabling and scrapping phases are taken into account.
NOTE For relevant but not significant hazards, e.g. sharp edges of the machine frame, see ISO 12100:2010.
It is also applicable to machines fitted with one or more of the following devices/additional working units, whose hazards have been dealt with:
a) device for hot gluing;
b) device for high-frequency gluing;
c) device for high-frequency shaping;
d) automatic work-piece loading and unloading system;
e) intermediate additional platens;
f) work-piece extractor;
g) work-piece clamping pressure beam;
h) split moveable platens.
The machines are designed to process work-pieces consisting of:
1) solid wood;
2) materials with similar characteristics to wood (see ISO 19085‑1:2017, 3.2);
3) honeycomb board.
This document does not deal with any hazards related to:
— specific devices that differ from the list above;
— hot fluid heating systems internal to the machine other than electrical;
— any hot fluid heating systems external to the machine;
— operation of taking intermediate platens out and in again;
— the combination of a single machine being used with any other machine (as part of a line).
It is not applicable to:
— frame presses;
— membrane presses where the pressing force is applied by vacuum only;
— presses for producing chipboard, fibreboard, OSB;
— machines intended for use in potentially explosive atmosphere;
— machines manufactured before the date of its publication as an international standard.
|
Published |
2021-10 |
Edition : 1 |
Number of pages : 42 |
Technical Committee |
13.110
Safety of machinery
;
79.120.10
Woodworking machines
|
| ISO 2729:1995 |
Woodworking tools — Chisels and gouges |
Refers to the characteristics of chisels and gouges for woodworking.
|
Published |
1995-11 |
Edition : 2 |
Number of pages : 12 |
Technical Committee |
79.120.20
Woodworking tools
|
| ISO 2730:1973 |
Woodworking tools — Wooden bodied planes |
|
Withdrawn |
1973-02 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
79.120.20
Woodworking tools
|
| ISO/DIS 19085-15 |
Woodworking machines — Safety — Part 15: Presses |
This document gives the safety requirements and measures for stationary:
— cold presses;
— hot presses;
— bending presses;
— edge/face gluing presses;
— membrane presses;
— embossing presses;
where the pressing force is applied by hydraulic actuators pushing two flat or shaped surfaces against each other, capable of continuous production use, hereinafter referred to as "machines".
It deals with all significant hazards, hazardous situations and events as listed in Annex A, relevant to machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer, including reasonably foreseeable misuse. Also, transport, assembly, dismantling, disabling and scrapping phases are taken into account.
It is also applicable to machines fitted with one or more of the following devices/additional working units, whose hazards have been dealt with:
a) device for hot gluing;
b) device for high-frequency gluing;
c) device for high-frequency shaping;
d) automatic workpiece loading and unloading system;
e) intermediate additional platens;
f) workpiece extractor;
g) workpiece clamping pressure beam;
h) split moveable platens.
The machines are designed to process workpieces consisting of:
1) solid wood;
2) materials with similar characteristics to wood (see ISO 19085 1:2021, 3.2);
3) honeycomb board.
This document does not deal with any hazards related to:
— specific devices that differ from the list above;
— hot fluid heating systems internal to the machine other than electrical;
— any hot fluid heating systems external to the machine;
— operation of taking intermediate platens out and in again;
— the combination of a single machine being used with any other machine (as part of a line).
It is not applicable to:
— frame presses;
— membrane presses where the pressing force is applied by vacuum only;
— presses for producing chipboard, fibreboard, OSB;
— machines intended for use in potentially explosive atmosphere;
— machines manufactured before the date of its publication as an international standard.
|
Under development |
|
Edition : 2 |
Number of pages : 40 |
Technical Committee |
13.110
Safety of machinery
;
79.120.10
Woodworking machines
|
| ISO 19085-16:2021 |
Woodworking machines — Safety — Part 16: Table band saws and band re-saws |
This document gives the safety requirements and measures for table band saws and band resaws, with manual loading and/or unloading and suitable for continuous production use, hereinafter referred to as “machines”.
The machines are designed to cut solid wood and material with similar physical characteristics to wood.
It deals with all significant hazards, hazardous situations and events, listed in Annex A, relevant to the machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer; reasonably foreseeable misuse has been considered too. Also, transport, assembly, dismantling, disabling and scrapping phases have been taken into account.
It is also applicable to machines fitted with one or more of the following devices/additional working units, whose hazards have been dealt with:
a) device to tilt the table;
b) device to tilt the saw unit.
This document does not apply to:
1) machines driven by combustion engines or power take offs (PTO);
2) log band sawing machines;
NOTE Log band sawing machines are covered by EN 1807-2:2013.
3) horizontal band saws and band resaws;
4) machines designed for cross-cutting of firewood.
This document does not deal with hazards related to the combination of a single machine being used with any other machine (as part of a line).
This document is not applicable to machines intended for use in potentially explosive atmospheres or to machines manufactured prior to the date of its publication.
|
Published |
2021-10 |
Edition : 1 |
Number of pages : 32 |
Technical Committee |
79.120.10
Woodworking machines
|
| ISO 19085-17:2021 |
Woodworking machines — Safety — Part 17: Edge banding machines fed by chains |
This document gives the safety requirements and measures for edge banding machines fed by chains or belts, with manual loading and unloading and maximum workpiece height capacity of 100 mm, capable of continuous production use, hereinafter referred as “machines”.
It deals with all significant hazards, hazardous situations and events, listed in Annex A, relevant to the machines, when operated, adjusted and maintained as intended and under the conditions foreseen by the manufacturer; reasonably foreseeable misuse has been considered too. Also, transport, assembly, dismantling, disabling and scrapping phases are taken into account.
The machines are designed to process in one pass one end (single-end machine) or both ends (double-end machine) of panels of:
— materials with similar physical characteristics to wood (see ISO 19085-1:2021, 3.2), even with a core sheet of aluminium light alloy;
— gypsum plaster boards.
Edges to be applied by the machine can be made of:
— paper;
— melamine;
— plastic;
— composite materials;
— aluminium;
— light alloy;
— veneer;
— solid wood.
It is also applicable to machines fitted with one or more of the following devices/working units, whose hazards have been dealt with:
— hot air banding unit;
— laser banding unit;
— infrared banding unit;
— dynamic processing units;
— sanding belt units;
— milling unit installed out of the integral enclosure at the panel side on single-end machines;
— milling unit installed out of the integral enclosure between machines halves of double-end machines;
— additional fixed or movable workpiece support along the feed;
— additional infeed workpiece support;
— additional outfeed workpiece support;
— in-feed device for transversal loading of panels in single-end machines;
— intermediate workpiece support in double-end machines;
— automatic panel returner in single-end machines;
— automatic tool changing;
— quick tool changing system;
— automatic multiple edges infeed device;
— workpiece heaters.
This document does not deal with any hazards relating to:
a) systems for loading and unloading of the workpiece to a single machine other than automatic panel returner and infeed and outfeed workpiece supports (e.g. robots);
b) the combination of a single machine being used with other machines (as part of a line);
c) workpiece dividing unit installed out of the integral enclosure and/or whose tools protrude out of the integral enclosure;
d) plasma banding unit.
It is not applicable to machines intended for use in potentially explosive atmosphere nor manufactured before the date of its publication.
|
Published |
2021-05 |
Edition : 1 |
Number of pages : 48 |
Technical Committee |
79.120.10
Woodworking machines
|
| ISO 5611:1989 |
Cartridges, type A, for indexable inserts — Dimensions |
|
Withdrawn |
1989-08 |
Edition : 2 |
Number of pages : 7 |
Technical Committee |
25.100
Cutting tools
|
| ISO 2726:1973 |
Woodworking tools — Metal bodied planes |
|
Withdrawn |
1973-02 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
79.120.20
Woodworking tools
|
| ISO 2726:1995 |
Woodworking tools — Metal-bodied bench planes, plane cutters and cap irons |
Contains the nomenclature and specifies the characteristics of metal-bodied bench planes, plane cutters and cap irons. Replaces the first edition of ISO 2726 as well as ISO 2728, which have been technically revised.
|
Withdrawn |
1995-11 |
Edition : 2 |
Number of pages : 6 |
Technical Committee |
79.120.20
Woodworking tools
|
| ISO 2728:1982 |
Woodworking tools — Plane irons |
|
Withdrawn |
1982-11 |
Edition : 2 |
Number of pages : 4 |
Technical Committee |
79.120.20
Woodworking tools
|
| ISO 2729:1973 |
Woodworking tools — Chisels and gouges |
|
Withdrawn |
1973-02 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
79.120.20
Woodworking tools
|
| ISO 7294:1983 |
Saw teeth for woodworking saws — Profile shape — Terminology and designation |
ISO 7294 is not intended to standardize certain tooth types. Deals with saw blades for hand saws or machine saws. The designation system established in ISO 7294 is not applicable to saw blades with ahrd metal tips. Gives in addition to the terms in English and French the equivalent terms in Italian in an annex.
|
Published |
1983-07 |
Edition : 1 |
Number of pages : 10 |
Technical Committee |
01.040.79
Wood technology (Vocabularies)
;
79.120.20
Woodworking tools
|
| ISO 1190-2:1982 |
Copper and copper alloys — Code of designation — Part 2: Designation of tempers |
|
Withdrawn |
1982-11 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
25.200
Heat treatment
;
77.120.30
Copper and copper alloys
|
| ISO 2107:1983 |
Aluminium, magnesium and their alloys — Temper designations |
The temper designations define the sequence of basic treatments used to produce the tempers. Mechanical properties apply to individual alloy-temper-product combinataions. The temper designation consists of letters and follows the designation of the alloy, and is separated therefrom by a dash.
|
Withdrawn |
1983-06 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
25.200
Heat treatment
;
77.120.10
Aluminium and aluminium alloys
;
77.120.20
Magnesium and magnesium alloys
|
| ISO 2107:2004 |
Aluminium and aluminium alloys — Wrought products — Temper designations |
ISO 2107:2004 establishes temper designations as required for identification for all product forms of wrought aluminium and aluminium alloys.
|
Withdrawn |
2004-07 |
Edition : 2 |
Number of pages : 9 |
Technical Committee |
25.200
Heat treatment
;
77.120.10
Aluminium and aluminium alloys
|
| ISO 2107:2007 |
Aluminium and aluminium alloys — Wrought products — Temper designations |
ISO 2107:2007 establishes temper designations as required for identification for all product forms of wrought aluminium and aluminium alloys.
|
Published |
2007-02 |
Edition : 3 |
Number of pages : 9 |
Technical Committee |
25.200
Heat treatment
;
77.120.10
Aluminium and aluminium alloys
|
| ISO/AWI 2107 |
Aluminium and aluminium alloys — Wrought products — Temper designations |
ISO 2107:2007 establishes temper designations as required for identification for all product forms of wrought aluminium and aluminium alloys.
|
Under development |
|
Edition : 4 |
|
Technical Committee |
25.200
Heat treatment
;
77.120.10
Aluminium and aluminium alloys
|
| ISO 4885:1996 |
Ferrous products — Heat treatments — Vocabulary |
Defines the terms used in the heat treatment of ferrous products. The vocabulary is divided into a main part and a complementary section. The complementary section contains the definitions of terms necessary to understand the main part.
|
Withdrawn |
1996-03 |
Edition : 1 |
Number of pages : 43 |
Technical Committee |
25.200
Heat treatment
;
01.040.25
Manufacturing engineering (Vocabularies)
;
01.040.77
Metallurgy (Vocabularies)
;
77.140.01
Iron and steel products in general
|
| ISO 4885:2017 |
Ferrous materials — Heat treatments — Vocabulary |
ISO 4885:2017 defines important terms used in the heat treatment of ferrous materials.
NOTE The term ferrous materials include products and workpieces of steel and cast iron.
Annex A provides an alphabetical list of terms defined in this document, as well as their equivalents in French, German, Chinese and Japanese.
Table 1 shows the various iron-carbon (Fe-C) phases.
|
Withdrawn |
2017-02 |
Edition : 2 |
Number of pages : 41 |
Technical Committee |
25.200
Heat treatment
;
01.040.25
Manufacturing engineering (Vocabularies)
;
01.040.77
Metallurgy (Vocabularies)
;
77.140.01
Iron and steel products in general
|
| ISO 4885:2018 |
Ferrous materials — Heat treatments — Vocabulary |
ISO 4885:2018 defines important terms used in the heat treatment of ferrous materials.
NOTE The term ferrous materials include products and workpieces of steel and cast iron.
Annex A provides an alphabetical list of terms defined in this document, as well as their equivalents in French, German, Chinese and Japanese.
Table 1 shows the various iron-carbon (Fe-C) phases.
|
Published |
2018-02 |
Edition : 3 |
Number of pages : 41 |
Technical Committee |
25.200
Heat treatment
;
01.040.25
Manufacturing engineering (Vocabularies)
;
01.040.77
Metallurgy (Vocabularies)
;
77.140.01
Iron and steel products in general
|
| ISO 15787:2001 |
Technical product documentation — Heat-treated ferrous parts — Presentation and indications |
|
Withdrawn |
2001-12 |
Edition : 1 |
Number of pages : 31 |
Technical Committee |
25.200
Heat treatment
;
01.100.20
Mechanical engineering drawings
|
| ISO 2107:1983 |
Aluminium, magnesium and their alloys — Temper designations |
The temper designations define the sequence of basic treatments used to produce the tempers. Mechanical properties apply to individual alloy-temper-product combinataions. The temper designation consists of letters and follows the designation of the alloy, and is separated therefrom by a dash.
|
Withdrawn |
1983-06 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
25.200
Heat treatment
;
77.120.10
Aluminium and aluminium alloys
;
77.120.20
Magnesium and magnesium alloys
|
| ISO 2107:2004 |
Aluminium and aluminium alloys — Wrought products — Temper designations |
ISO 2107:2004 establishes temper designations as required for identification for all product forms of wrought aluminium and aluminium alloys.
|
Withdrawn |
2004-07 |
Edition : 2 |
Number of pages : 9 |
Technical Committee |
25.200
Heat treatment
;
77.120.10
Aluminium and aluminium alloys
|
| ISO 2107:2007 |
Aluminium and aluminium alloys — Wrought products — Temper designations |
ISO 2107:2007 establishes temper designations as required for identification for all product forms of wrought aluminium and aluminium alloys.
|
Published |
2007-02 |
Edition : 3 |
Number of pages : 9 |
Technical Committee |
25.200
Heat treatment
;
77.120.10
Aluminium and aluminium alloys
|
| ISO/AWI 2107 |
Aluminium and aluminium alloys — Wrought products — Temper designations |
ISO 2107:2007 establishes temper designations as required for identification for all product forms of wrought aluminium and aluminium alloys.
|
Under development |
|
Edition : 4 |
|
Technical Committee |
25.200
Heat treatment
;
77.120.10
Aluminium and aluminium alloys
|
| ISO 4885:1996 |
Ferrous products — Heat treatments — Vocabulary |
Defines the terms used in the heat treatment of ferrous products. The vocabulary is divided into a main part and a complementary section. The complementary section contains the definitions of terms necessary to understand the main part.
|
Withdrawn |
1996-03 |
Edition : 1 |
Number of pages : 43 |
Technical Committee |
25.200
Heat treatment
;
01.040.25
Manufacturing engineering (Vocabularies)
;
01.040.77
Metallurgy (Vocabularies)
;
77.140.01
Iron and steel products in general
|
| ISO 4885:2017 |
Ferrous materials — Heat treatments — Vocabulary |
ISO 4885:2017 defines important terms used in the heat treatment of ferrous materials.
NOTE The term ferrous materials include products and workpieces of steel and cast iron.
Annex A provides an alphabetical list of terms defined in this document, as well as their equivalents in French, German, Chinese and Japanese.
Table 1 shows the various iron-carbon (Fe-C) phases.
|
Withdrawn |
2017-02 |
Edition : 2 |
Number of pages : 41 |
Technical Committee |
25.200
Heat treatment
;
01.040.25
Manufacturing engineering (Vocabularies)
;
01.040.77
Metallurgy (Vocabularies)
;
77.140.01
Iron and steel products in general
|
| ISO 4885:2018 |
Ferrous materials — Heat treatments — Vocabulary |
ISO 4885:2018 defines important terms used in the heat treatment of ferrous materials.
NOTE The term ferrous materials include products and workpieces of steel and cast iron.
Annex A provides an alphabetical list of terms defined in this document, as well as their equivalents in French, German, Chinese and Japanese.
Table 1 shows the various iron-carbon (Fe-C) phases.
|
Published |
2018-02 |
Edition : 3 |
Number of pages : 41 |
Technical Committee |
25.200
Heat treatment
;
01.040.25
Manufacturing engineering (Vocabularies)
;
01.040.77
Metallurgy (Vocabularies)
;
77.140.01
Iron and steel products in general
|
| ISO 15787:2001 |
Technical product documentation — Heat-treated ferrous parts — Presentation and indications |
|
Withdrawn |
2001-12 |
Edition : 1 |
Number of pages : 31 |
Technical Committee |
25.200
Heat treatment
;
01.100.20
Mechanical engineering drawings
|
| ISO 15787:2016 |
Technical product documentation — Heat-treated ferrous parts — Presentation and indications |
ISO 15787:2016 specifies the manner of presenting and indicating the final condition of heat‐treated ferrous parts in technical drawings.
|
Published |
2016-09 |
Edition : 2 |
Number of pages : 33 |
Technical Committee |
25.200
Heat treatment
;
01.100.20
Mechanical engineering drawings
|
| ISO/FDIS 20431 |
Heat treatment — Control of quality |
|
Under development |
|
Edition : 1 |
Number of pages : 41 |
Technical Committee |
25.200
Heat treatment
|
| ISO/IEC DIS 5394 |
Information technology — Criteria for concept systems |
|
Under development |
|
Edition : 1 |
Number of pages : 23 |
Technical Committee |
35.020
Information technology (IT) in general
|
| ISO 8074:1985 |
Aerospace — Surface treatment of austenitic stainless steel parts |
Gives the requirements to be met. Provides practical methods for removing contaminants and for obtaining suitable corrosion resistance. The surface treatments required during manufacture are mandatory for all surfaces. The final surface treatments are mandatory except when a surface coating is specified.
|
Published |
1985-08 |
Edition : 1 |
Number of pages : 5 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8075:1985 |
Aerospace — Surface treatment of hardenable stainless steel parts |
Specifies the requirements for parts made from martensitic, precipitation hardening and maraging stainless steels. Provides practical methods for removing contaminants and for obtaining suitable corrosion resistance for aerospace applications. The final surface treatments are mandatory except when a surface coating is specified.
|
Published |
1985-08 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8076:1984 |
Aerospace process — Anodic treatment of aluminium alloys — Chromic acid process 40 V DC, undyed coating |
Gives requirements for producing and testing. Sealed anodic coatings are applied to improve resistance to corrosion and as a pretreatment for painting. Unsealed anodic coatings provide a suitable surface for the application of structural adhesives and allow increased durability for paints. Gives information on technical requirements, quality assurance provisions, packaging and delivery.
|
Withdrawn |
1984-10 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8077:1984 |
Aerospace process — Anodic treatment of aluminium alloys — Chromic acid process 20 V DC, undyed coating |
Includes requirements for producing and testing. Sealed anodic coatings are applied to improve resistance to corrosion and as a pretreatment for painting. Unsealed anodic coatings provide a suitable surface for the application of structural adhesives and allow increased durability for paints. Gives information on technical requirements, quality assurance provisions, packaging and delivery.
|
Withdrawn |
1984-10 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8078:1984 |
Aerospace process — Anodic treatment of aluminium alloys — Sulfuric acid process, undyed coating |
Specifies requirements for producing and testing a coating on aluminium alloys. The anodizing process is applied in the manufacture of aerospace products to improve paint adhesion and resistance to corrosion. Gives technical requirements, quality assurance provisions, packaging and delivery.
|
Published |
1984-10 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8079:1984 |
Aerospace process — Anodic treatment of aluminium alloys — Sulfuric acid process, dyed coating |
Includes requirements for producing and testing a coating on aluminium alloys where the coating is not required to withstand prolonged exposure to weathering and direct sunlight. The anodizing process is applied in the manufacture of aerospace products to improve resistance to corrosion, produce coloured surfaces for aesthetic reasons or to colour code parts for identification purposes.
|
Published |
1984-10 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8080:1985 |
Aerospace — Anodic treatment of titanium and titanium alloys — Sulfuric acid process |
Specifies the requirements for producing and testing. The coating is used with solid film lubricants for protection of titanium fasteners against galling, for limited protection of less noble metals against galvanic corrosion when in contact with titanium or for other approved uses. Gives information on technical requirements, quality assurance provisions, packaging and delivery.
|
Withdrawn |
1985-05 |
Edition : 1 |
Number of pages : 2 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8080:2021 |
Aerospace — Anodic treatment of titanium and titanium alloys — Sulfuric acid process |
This document specifies the requirements for producing and testing an unsealed anodic coating on titanium and titanium alloys. The anodic coating is produced by the sulfuric acid process.
The coating is used with solid film lubricants for protection of titanium fasteners against galling, for limited protection of less noble metals against galvanic corrosion when in contact with titanium or for other approved uses.
|
Published |
2021-05 |
Edition : 2 |
Number of pages : 3 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8081:1985 |
Aerospace process — Chemical conversion coating for aluminium alloys — General purpose |
Describes the requirements for producing and testing. The coating specified is used in the manufacture of aerospace products in order to improve paint adhesion and resistance to corrosion. This process may also be used for touch-up of anodic coatings. Gives information on technical requirements, quality assurance provisions, packaging and delivery.
|
Withdrawn |
1985-02 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 8044:1989/Amd 1:1993 |
Corrosion of metals and alloys — Vocabulary — Amendment 1 |
|
Withdrawn |
1993-05 |
Edition : 2 |
Number of pages : 5 |
Technical Committee |
77.060
Corrosion of metals
;
01.040.77
Metallurgy (Vocabularies)
|
| ISO 8081:2021 |
Aerospace process — Chemical conversion coating for aluminium alloys — General purpose |
This document specifies the requirements for producing and testing a general purpose chemical conversion coating on aluminium alloys.
The chemical conversion coating is used in the manufacture of aerospace products in order to improve paint adhesion and resistance to corrosion.
This process can also be used for touch-up of anodic coatings.
|
Published |
2021-05 |
Edition : 2 |
Number of pages : 6 |
Technical Committee |
49.040
Coatings and related processes used in aerospace industry
|
| ISO 3079:2022 |
Two-electrode method using acetic acid to measure pitting potential of aluminium and aluminium alloys in chloride solutions |
This document specifies a test method for the measurement of the pitting potential of aluminium and aluminium alloys in sodium chloride solution of a mass fraction of 5 %, with a fixed concentration of acetic acid as the oxidant, using a two-electrode system. This document provides a simple method for ranking aluminium alloys and is especially useful for evaluating galvanic protection performance of thin clad materials because the test method causes little specimen damage.
|
Published |
2022-11 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 3651-1:1976 |
Austenitic stainless steels — Determination of resistance to intergranular corrosion — Part 1: Corrosion test in nitric acid medium by measurement of loss in mass (Huey test) |
|
Withdrawn |
1976-08 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 3651-1:1998 |
Determination of resistance to intergranular corrosion of stainless steels — Part 1: Austenitic and ferritic-austenitic (duplex) stainless steels — Corrosion test in nitric acid medium by measurement of loss in mass (Huey test) |
|
Published |
1998-05 |
Edition : 2 |
Number of pages : 6 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 3651-2:1976 |
Austenitic stainless steels — Determination of resistance to intergranular corrosion — Part 2: Corrosion test in a sulphuric acid/copper sulphate medium in the presence of copper turnings (Monypenny Strauss test) |
|
Withdrawn |
1976-07 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 3651-2:1998 |
Determination of resistance to intergranular corrosion of stainless steels — Part 2: Ferritic,austenitic and ferritic-austenitic (duplex) stainless steels — Corrosion test in media containing sulfuric acid |
|
Published |
1998-05 |
Edition : 2 |
Number of pages : 9 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 3651-3:2017 |
Determination of resistance to intergranular corrosion of stainless steels — Part 3: Corrosion test for low-Cr ferritic stainless steels |
ISO 3651-3:2017 specifies the determination of the intergranular corrosion susceptibility of low-Cr [less than 16 % Cr, less than 0,3 % Ni, less than 0,3 % Ti and less than 0,3 % Nb, less than 0,3 % (Ti + Atomic weight ratio Nb)] ferritic stainless steels in the 0,5 % sulfuric acid/copper sulfate test. It also specifies the purposes which may be assigned to the test.
The method is applicable to stainless steels supplied in the form of rolled sheets and welded tubes and intended for use in a mildly oxidizing acid medium.
It is important to note that the result of the corrosion test is only strictly valid for the corrosive medium used in the test. It constitutes a basis for estimating the resistance to intergranular corrosion but cannot be used to check resistance to other forms of corrosion (general corrosion, pitting, stress corrosion, etc.). It is important for the user to adapt the specified corrosion test where steels are used. This test is, in no case, considered as an absolute criterion of the quality of the metal.
|
Published |
2017-05 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 4212:2023 |
Corrosion of metals and alloys — Method of oxalic acid etching test for intergranular corrosion of austenitic stainless steel |
This document specifies a method to test for intergranular corrosion (IGC) in austenitic stainless steels using an oxalic acid etch. This method can evaluate non-sensitization of austenitic stainless steels by observing the structure of the etched surface with a microscope after performing electrolytic etching (hereinafter called “etching”) on austenitic stainless steel in an oxalic acid solution.
|
Published |
2023-02 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 4215:2022 |
Corrosion of metals and alloys — Test method for high-temperature corrosion testing of metallic materials by thermogravimetry under isothermal or cyclic conditions |
This document specifies the thermogravimetric method (continuous measurement) for isothermal and cyclic exposure of metals and metallic alloys at high temperature under corrosive conditions.
|
Published |
2022-09 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO/DIS 4631 |
Corrosion of Metals and Alloys — Measurement of the Electrochemical Critical Localized Corrosion potential (E-CLCP) for Ti Alloys Fabricated via Additive Manufacturing Method in Simulated Biomedical Solutions |
|
Under development |
|
Edition : 1 |
Number of pages : 9 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 8044:1999 |
Corrosion of metals and alloys — Basic terms and definitions |
|
Withdrawn |
1999-12 |
Edition : 3 |
Number of pages : 65 |
Technical Committee |
77.060
Corrosion of metals
;
01.040.77
Metallurgy (Vocabularies)
|
| ISO 4680:2022 |
Corrosion of metals and alloys — Uniaxial constant-load test method for evaluating susceptibility of metals and alloys to stress corrosion cracking in high-purity water at high temperatures |
The document specifies a method for undertaking uniaxial constant load testing of the susceptibility of a metal, or an alloy, to stress corrosion cracking (SCC) in high-purity water environments at high temperature (above the boiling point of water at normal pressures) and pressure. The test method is particularly applicable to simulated primary water environments of light water reactors (LWRs).
The test method enables assessment of the relative resistance to SCC of a material in different environments and the comparative resistance of different materials (using the same environment, specimen dimensions and loading).
The terms “metal” and “alloy”, as used in the document, include weld metals and weld heat affected zones.
|
Published |
2022-12 |
Edition : 1 |
Number of pages : 27 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 4905:2023 |
Corrosion of metals and alloys — Electrochemical test methods for high-temperature corrosion testing of metallic materials in molten salts |
This document describes the general procedure for electrochemical measurements in high-temperature molten salts using potentiodynamic polarization measurements and electrochemical impedance spectroscopy (EIS), and describes the experimental apparatus.
|
Published |
2023-02 |
Edition : 1 |
Number of pages : 13 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 5156:2022 |
Corrosion of metals and alloys — Corrosion test method for disinfectant — Total immersion method |
This document specifies a method for testing the corrosivity of disinfectants against metals and alloys (for example, apparatus, reagents and materials, test specimens, pre-cleaning of test specimens, conditioning, procedure, test report) under total immersion conditions.
This document is applicable to the determination of corrosion of disinfectants to metal materials under total immersion. Other corrosion test methods are not included in this document, and this document does not include the evaluation of corrosion test results.
This document does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility for the user of this document to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
|
Published |
2022-12 |
Edition : 1 |
Number of pages : 8 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO/FDIS 5668 |
Corrosion of metals and alloys — Guidelines and requirements for corrosion testing in simulated environment of deep-sea water |
|
Under development |
|
Edition : 1 |
Number of pages : 18 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 6509-1:2014 |
Corrosion of metals and alloys — Determination of dezincification resistance of copper alloys with zinc — Part 1: Test method |
ISO 6509-1:2014 specifies a method for the determination of dezincification depth of copper alloys with zinc exposed to fresh, saline waters or drinking water. The method is intended for copper alloys with a mass fraction of zinc more than 15 %.
ISO 6509-1:2014 describes only the test methodology and does not set out criteria for acceptability of materials for a specific application. Acceptance criteria are described in ISO 6509‑2.
|
Published |
2014-06 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 6509-2:2017 |
Corrosion of metals and alloys — Determination of dezincification resistance of copper alloys with zinc — Part 2: Assessment criteria |
ISO 6509-2:2017 specifies assessment criteria and provides guidance related to the corrosion type dezincification for the selection of copper alloys with a mass fraction of zinc of more than 15 %, exposed to fresh, saline waters or drinking water. The assessment criteria are based on the exposure tests in ISO 6509‑1.
The materials can be in the form of a semi-finished product or in the form of a final product (fittings, valves, etc.).
ISO 6509-2:2017 is not applicable to complex products like flow-meters or pump-parts. In addition, other properties of the material might need to be taken into account for the intended application. This document is not intended to validate dezincification in case of failure in the application.
|
Published |
2017-03 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 6509:1981 |
Corrosion of metals and alloys — Determination of dezincification resistance of brass |
The method applies to brass exposed to frech or saline waters. May be used for control or research purposes, but the field of application is not specified. The method consists of exposure of test pieces to copper(II) chloride solution followed by microscopic examination.
|
Withdrawn |
1981-07 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 6957:1988 |
Copper alloys — Ammonia test for stress corrosion resistance |
Specifies a test, using an ammoniacal atmosphere, for the detection of applied or residual stresses which can cause failure of the material in service or storage through stress corrosion cracking. The severity of the method can be regulated by changing the pH value. In an informative annex, recommendations are given for the choice of pH-values.
|
Published |
1988-09 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO/DIS 7054 |
Corrosion of metals and alloys - The wiping method for measurements of gases and particles on real structures and equipment |
|
Under development |
|
Edition : 1 |
Number of pages : 11 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7384:1986 |
Corrosion tests in artificial atmosphere — General requirements |
Specifies specimens, apparatus and procedure of corrosion tests. Applies to metals and alloys with and without permanent corrosion protection or temporary corrosion protection. The requirements specified in ISO 7384 are intended for application in other International Standards dealing with corrosion tests in artificial atmospheres as well as in accelerated methods of test and the construction of new chambers.
|
Published |
1986-12 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7441:1984 |
Corrosion of metals and alloys — Determination of bimetallic corrosion in outdoor exposure corrosion tests |
Applies to metals and alloys, and metals and alloys with metallic and non-metallic non-organic coatings. The methods are intended for the determination of the amount and type of corrosion effect, arising in natural atmospheres, caused by contact with different metals (coated metals), and for the evaluation of the effectiveness of bimetallic corrosion protection treatments.
|
Withdrawn |
1984-12 |
Edition : 1 |
Number of pages : 12 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7441:2015 |
Corrosion of metals and alloys — Determination of bimetallic corrosion in atmospheric exposure corrosion tests |
ISO 7441:2015 specifies and compares methods for the determination of bimetallic corrosion of metals and coated metals in atmospheric exposure corrosion tests. The methods are intended for the determination of the amount and type of corrosion effect, arising in natural atmospheres, caused by contact with different metals.
|
Published |
2015-01 |
Edition : 2 |
Number of pages : 14 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-1:1987 |
Corrosion of metals and alloys — Stress corrosion testing — Part 1: General guidance on testing procedures |
Descsribes the general considerations which apply when designing and conducting tests to assess susceptibility of metals to stress corrosion. Particular methods of test are not treated in detail in this document. These are specified in the additional parts of ISO 7539.
|
Withdrawn |
1987-08 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-1:2012 |
Corrosion of metals and alloys — Stress corrosion testing — Part 1: General guidance on testing procedures |
ISO 7539-1:2012 describes the general considerations that apply when designing and conducting tests to assess susceptibility of metals to stress corrosion.
ISO 7539-1:2012 also gives some general guidance on the selection of test methods.
|
Published |
2012-12 |
Edition : 2 |
Number of pages : 20 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-2:1989 |
Corrosion of metals and alloys — Stress corrosion testing — Part 2: Preparation and use of bent-beam specimens |
Covers procedures for designing, preparing and using bent-beam test specimens. These specimens may be used to test a variety of product forms (i. e. sheet, plate, flat extruded material, wire or rod). They are espesially suitable for multiple testing and for atmospheric stress corrosion tests; they are usually tested under nominally constant strain conditions. Bent-beam specimens made from high strength materials may fracture rapidly and can be dangerous.
|
Published |
1989-12 |
Edition : 1 |
Number of pages : 6 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-3:1989 |
Corrosion of metals and alloys — Stress corrosion testing — Part 3: Preparation and use of U-bend specimens |
Covers procedures for designing, preparing and using U-bend test specimens. These specimens may be used to test a variety of product forms (for example sheet, plate, flat extruded material, wire or rod). The principal acvantages of the U-bend test are its simplicity and its adaptability for use in plants. A disadvantage is that stesses cannot be quantified with accuracy. U-bend specimens made from high strength materials may fracture rapidly and can be dangerous.
|
Published |
1989-12 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-4:1989 |
Corrosion of metals and alloys — Stress corrosion testing — Part 4: Preparation and use of uniaxially loaded tension specimens |
Covers procedures for designing, preparing and using uniaxially loaded tension specimens. These specimens may be used to test a variety of product forms (for example sheet, plate, tubes, wire or rod as well as parts joined by welding, riveting, or other methods). Uniaxially loaded tensile specimens may be stressed quantitatively with equipment for application of either a constant load, a constant strain or an increasing load or strain.
|
Published |
1989-12 |
Edition : 1 |
Number of pages : 3 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-5:1989 |
Corrosion of metals and alloys — Stress corrosion testing — Part 5: Preparation and use of C-ring specimens |
Covers procedures for designing, preparing, stressing, exposing and inspecting C-ring specimens. These versatile, economical specimens may be used to test a variety of product forms including parts joined by welding. C-ring specimens may be stressed to predeterminded levels, using simple equipment for application of either constant load or constant strain.
|
Published |
1989-12 |
Edition : 1 |
Number of pages : 9 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 11782-1:1998 |
Corrosion of metals and alloys — Corrosion fatigue testing — Part 1: Cycles to failure testing |
|
Published |
1998-07 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-6:1989 |
Corrosion of metals and alloys — Stress corrosion testing — Part 6: Preparation and use of pre-cracked specimens |
Covers procedures for designing, preparing and using pre cracked specimens . Recommendations concerning notched specimens are given in annex A. These specimens are not suitable for the evaluation of thin product (sheet or wire); they are generally used for plate, bar and forgings. Their advantage is that they allow date to be acquired from which critical defect sizes, above which stress corrosion cracking may occur, can be estimated.
|
Withdrawn |
1989-12 |
Edition : 1 |
Number of pages : 30 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-6:2003 |
Corrosion of metals and alloys — Stress corrosion testing — Part 6: Preparation and use of pre-cracked specimens for tests under constant load or constant displacement |
ISO 7539-6:2002 covers procedures for designing, preparing and using pre-cracked specimens for investigating susceptibility to stress corrosion. It gives recommendations for the design, preparation and use of pre-cracked specimens for investigating susceptibility to stress corrosion.
The term "metal" as used in this part of ISO 7539 includes alloys.
Because of the need to confine plasticity at the crack tip, pre-cracked specimens are not suitable for the evaluation of thin products such as sheet or wire and are generally used for thicker products including plate bar and forgings. They can also be used for parts joined by welding.
|
Withdrawn |
2003-02 |
Edition : 2 |
Number of pages : 38 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-6:2011 |
Corrosion of metals and alloys — Stress corrosion testing — Part 6: Preparation and use of precracked specimens for tests under constant load or constant displacement |
ISO 7539-6:2011 covers procedures for designing, preparing and using precracked specimens for investigating susceptibility to stress corrosion. It gives recommendations for the design, preparation and use of precracked specimens for investigating susceptibility to stress corrosion.
The term "metal" as used in ISO 7539-6:2011 includes alloys.
Because of the need to confine plasticity at the crack tip, precracked specimens are not suitable for the evaluation of thin products, such as sheet or wire, and are generally used for thicker products including plate bar and forgings. They can also be used for parts joined by welding.
Precracked specimens can be loaded with equipment for application of a constant load or can incorporate a device to produce a constant displacement at the loading points. Tests conducted under increasing displacement or increasing load are dealt with in ISO 7539-9.
A particular advantage of precracked specimens is that they allow data to be acquired from which critical defect sizes, above which stress corrosion cracking can occur, can be estimated for components of known geometry subjected to known stresses. They also enable rates of stress corrosion crack propagation to be determined. The latter data can be taken into account when monitoring parts containing defects during service.
|
Withdrawn |
2011-10 |
Edition : 3 |
Number of pages : 38 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-6:2018 |
Corrosion of metals and alloys — Stress corrosion testing — Part 6: Preparation and use of precracked specimens for tests under constant load or constant displacement |
This document specifies procedures for designing, preparing and using precracked specimens for investigating susceptibility to stress corrosion. It gives recommendations for the design, preparation and use of precracked specimens for investigating susceptibility to stress corrosion. Recommendations concerning notched specimens are given in Annex A.
The term "metal" as used in this document includes alloys.
Because of the need to confine plasticity at the crack tip, precracked specimens are not suitable for the evaluation of thin products, such as sheet or wire, and are generally used for thicker products including plate bar and forgings. They can also be used for parts joined by welding.
Precracked specimens can be loaded with equipment for application of a constant load or can incorporate a device to produce a constant displacement at the loading points. Tests conducted under increasing displacement or increasing load are dealt with in ISO 7539-9.
A particular advantage of precracked specimens is that they allow data to be acquired, from which critical defect sizes, above which stress corrosion cracking can occur, can be estimated for components of known geometry subjected to known stresses. They also enable rates of stress corrosion crack propagation to be determined. The latter data can be taken into account when monitoring parts containing defects during service.
|
Published |
2018-08 |
Edition : 4 |
Number of pages : 40 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-7:1989 |
Corrosion of metals and alloys — Stress corrosion testing — Part 7: Slow strain rate testing |
Covers procedures for conducting slow strain rate tests for investigating susceptibility to stress corrosion cracking, including hydrogen-induced failure. They are adaptable for testing a wide variety of product forms. Their advantage is the rapidity with which susceptibility to stress corrosion cracking of a particular metal/environment combination can be assessed.
|
Withdrawn |
1989-12 |
Edition : 1 |
Number of pages : 4 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-7:2005 |
Corrosion of metals and alloys — Stress corrosion testing — Part 7: Method for slow strain rate testing |
ISO 7539-7:2005 covers procedures for conducting slow strain rate tests for investigating susceptibility of a metal to stress corrosion cracking, including hydrogen-induced failure. The term "metal" as used in this part of ISO 7539 includes alloys.
Slow strain rate tests are adaptable for testing a wide variety of product forms, including plate, rod, wire, sheet and tubes, as well as composites of these and parts joined by welding. Notched specimens may be used, as well as initially plain specimens.
The principal advantage of the test is the rapidity with which susceptibility to stress corrosion cracking of a particular metal/environment combination can be assessed.
|
Published |
2005-02 |
Edition : 2 |
Number of pages : 7 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-9:2003 |
Corrosion of metals and alloys — Stress corrosion testing — Part 9: Preparation and use of pre-cracked specimens for tests under rising load or rising displacement |
ISO 7539-9:2003 covers procedures for designing, preparing and using pre-cracked specimens for investigating the susceptibility of metal to stress corrosion cracking by means of tests conducted under rising load or rising displacement. The term "metal" includes alloys.
Because of the need to confine plasticity to the crack tip, pre-cracked specimens are not suitable for the evaluation of thin products such as sheet or wire and are generally used for thicker products including plate, bar and forgings. They can also be used for parts joined by welding.
A particular advantage of pre-cracked specimens is that they allow data to be acquired from which critical defect sizes, above which stress corrosion cracking may occur, can be estimated for components of known geometry subjected to known stresses. They also enable rates of stress corrosion crack propagation to be determined.
A principal advantage of the test is that it takes into account the potential impact of dynamic straining on the threshold for stress corrosion cracking.
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Withdrawn |
2003-04 |
Edition : 1 |
Number of pages : 27 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-9:2021 |
Corrosion of metals and alloys — Stress corrosion testing — Part 9: Preparation and use of pre-cracked specimens for tests under rising load or rising displacement |
1.1 This document specifies procedures for designing, preparing and using pre-cracked specimens for investigating the susceptibility of metal to stress corrosion cracking (SCC) by means of tests conducted under rising load or rising displacement. Tests conducted under constant load or constant displacement are dealt with in ISO 7539-6.
The term “metal” as used in this document includes alloys.
1.2 Because of the need to confine plasticity at the crack tip, pre-cracked specimens are not suitable for the evaluation of thin products such as sheet or wire and are generally used for thicker products including plate, bar, and forgings. They can also be used for parts joined by welding.
1.3 Pre-cracked specimens can be stressed quantitatively with equipment for application of a monotonically increasing load or displacement at the loading points.
1.4 A particular advantage of pre-cracked specimens is that they allow data to be acquired from which critical defect sizes, above which stress corrosion cracking can occur, can be estimated for components of known geometry subjected to known stresses. They also enable rates of stress corrosion crack propagation to be determined.
1.5 A principal advantage of the test is that it takes account of the potential impact of dynamic straining on the threshold for stress corrosion cracking.
1.6 At sufficiently low loading rates, the threshold stress intensity factor for susceptibility to stress corrosion cracking, KISCC, determined by this method can be less than or equal to that obtained by constant load or displacement methods and can be determined more rapidly.
|
Published |
2021-08 |
Edition : 2 |
Number of pages : 32 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-10:2013 |
Corrosion of metals and alloys — Stress corrosion testing — Part 10: Reverse U-bend method |
ISO 7539-10:2013 covers procedures for designing, preparing and using reversed U-bend (RUB) test specimens for investigating the susceptibility of the metal to stress corrosion cracking. The term "metal" as used in this standard includes alloys.
|
Withdrawn |
2013-03 |
Edition : 1 |
Number of pages : 11 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-10:2020 |
Corrosion of metals and alloys — Stress corrosion testing — Part 10: Reverse U-bend method |
This document specifies procedures for designing, preparing and using reversed U-bend (RUB) test specimens for investigating the susceptibility of the metal to stress corrosion cracking. The term "metal" as used in this document includes alloys.
|
Published |
2020-05 |
Edition : 2 |
Number of pages : 15 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 7539-11:2013 |
Corrosion of metals and alloys — Stress corrosion testing — Part 11: Guidelines for testing the resistance of metals and alloys to hydrogen embrittlement and hydrogen-assisted cracking |
ISO 7539-11:2013 gives guidance on the key features that should be accounted for in designing and conducting tests to evaluate the resistance of a metal or its alloy to hydrogen embrittlement and hydrogen-assisted cracking.
|
Published |
2013-04 |
Edition : 1 |
Number of pages : 16 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO/DIS 7539-12 |
Corrosion of metals and alloys — Stress corrosion testing — Part 12: Requirements for atmospheric stress corrosion cracking testing |
|
Under development |
|
Edition : 1 |
Number of pages : 10 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO/TR 7655:2022 |
Corrosion of metals and alloys — Overview of metal corrosion protection when using disinfectants |
This document provides an overview of the corrosivity of disinfectants and corrosion protection when using disinfectants, including an overview of test methods that can be used to determine their corrosivity.
This document is generic and applicable to organizations of all sizes in all industries, as well as to families and individuals, and it is intended to assist in determining appropriate health and safety measures regarding the use of disinfectants.
The resolution of security issues related to the use of disinfectants is outside the scope of this document.
|
Published |
2022-03 |
Edition : 1 |
Number of pages : 42 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 8044:1986 |
Corrosion of metals and alloys — Terms and definitions |
|
Withdrawn |
1986-12 |
Edition : 1 |
|
Technical Committee |
77.060
Corrosion of metals
;
01.040.77
Metallurgy (Vocabularies)
|
| ISO 8044:1989 |
Corrosion of metals and alloys — Vocabulary |
|
Withdrawn |
1989-12 |
Edition : 2 |
Number of pages : 17 |
Technical Committee |
77.060
Corrosion of metals
;
01.040.77
Metallurgy (Vocabularies)
|
| ISO 11782-2:1998 |
Corrosion of metals and alloys — Corrosion fatigue testing — Part 2: Crack propagation testing using precracked specimens |
|
Published |
1998-07 |
Edition : 1 |
Number of pages : 29 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 8044:2015 |
Corrosion of metals and alloys — Basic terms and definitions |
ISO 8044:2015 defines terms relating to corrosion that are widely used in modern science and technology. In addition, some definitions are supplemented with short explanations.
NOTE 1 Throughout the document IUPAC rules for electrode potential signs are applied. The term "metal" is also used to include alloys and other metallic materials.
NOTE 2 Terms and definitions related to inorganic surface treatment of metals are given in ISO 2080.
NOTE 3 See also the ISO online browsing platform (OBP): www.iso.org/obp/ui/
|
Withdrawn |
2015-09 |
Edition : 4 |
Number of pages : 24 |
Technical Committee |
77.060
Corrosion of metals
;
01.040.77
Metallurgy (Vocabularies)
|
| ISO 8044:2020 |
Corrosion of metals and alloys — Vocabulary |
This document defines terms relating to corrosion that are widely used in modern science and technology. In addition, some definitions are supplemented with short explanations.
NOTE 1 Throughout the document, IUPAC rules for electrode potential signs are applied. The term "metal" is also used to include alloys and other metallic materials.
NOTE 2 Terms and definitions related to the inorganic surface treatment of metals are given in ISO 2080.
|
Published |
2020-02 |
Edition : 5 |
Number of pages : 29 |
Technical Committee |
77.060
Corrosion of metals
;
01.040.77
Metallurgy (Vocabularies)
|
| ISO/CD 8044 |
Corrosion of metals and alloys — Vocabulary |
This document defines terms relating to corrosion that are widely used in modern science and technology. In addition, some definitions are supplemented with short explanations.
NOTE 1 Throughout the document, IUPAC rules for electrode potential signs are applied. The term "metal" is also used to include alloys and other metallic materials.
NOTE 2 Terms and definitions related to the inorganic surface treatment of metals are given in ISO 2080.
|
Under development |
|
Edition : 6 |
|
Technical Committee |
77.060
Corrosion of metals
;
01.040.77
Metallurgy (Vocabularies)
|
| ISO 8407:1991 |
Corrosion of metals and alloys — Removal of corrosion products from corrosion test specimens |
Specifies procedures designed to remove all corrosion products without significant removal of base metal. These procedures may, in some cases, also be applied to metal coatings. Annex A is for information only.
|
Withdrawn |
1991-07 |
Edition : 1 |
Number of pages : 7 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 8407:2009 |
Corrosion of metals and alloys — Removal of corrosion products from corrosion test specimens |
ISO 8407:2009 specifies procedures for the removal of corrosion products formed on metal and alloy corrosion test specimens during their exposure in corrosive environments. For the purpose of this International Standard, the term “metals” refers to pure metals and alloys.
The specified procedures are designed to remove all corrosion products without significant removal of base metal. This allows an accurate determination of the mass loss of the metal, which occurred during exposure to the corrosive environment.
These procedures may, in some cases, also be applied to metal coatings. However, possible effects from the substrate must be considered.
|
Withdrawn |
2009-11 |
Edition : 2 |
Number of pages : 8 |
Technical Committee |
77.060
Corrosion of metals
|
| ISO 8407:2021 |
Corrosion of metals and alloys — Removal of corrosion products from corrosion test specimens |
This document specifies procedures for the removal of corrosion products formed on metal and alloy corrosion test specimens during their exposure in corrosive environments. For the purpose of this document, the term "metals" refers to pure metals and alloys.
The specified procedures are designed to remove all corrosion products without significant removal of base metal. This allows an accurate determination of the mass loss of the metal, which occurred during exposure to the corrosive environment.
In some cases, these procedures are also applicable to metal coatings, providing the possible effects from the substrate are considered.
|
Published |
2021-01 |
Edition : 3 |
Number of pages : 11 |
Technical Committee |
77.060
Corrosion of metals
|