EN 15181:2007+A1specifies the method of test for determining the gas energy consumption in gas-fired domestic ovens when they are being used in one or more of the oven cooking modes defined in 3. 1. It applies to the gas-fired domestic ovens which are capable of utilizing gases of group H or group E !or third family gases", possibly after conversion according to instructions for use.This European Standard applies to these gas-fired domestic ovens, whether they are separate appliances or component parts of domestic cooking appliances.This European Standard also applies to domestic appliances that can utilize gas and/or electrical energy to provide heat for cooking when the ovens are utilizing gas energy to provide heat for cooking, but not when electric energy is used to provide any or all of the heat for cooking in the oven.It is not applicable to:- microwave combination ovens;- small cavities ovens (3.2);- oven cavities not provided with devices to detect and control the temperature for the preparation of food;- cooking modes others than defined in 3.1.1 and 3.1.2;- ovens connected to a chimney in which the gas energy for cooking provides, by design, also space and/or water heating;!Deleted text"This European Standard is concerned neither with safety nor with overall performance requirements.

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This document is part of a series of standards dealing with specification and qualification of welding procedures. Annex A gives details of this series of standards, Annex B gives a table for the use of these standards, and Annex C gives a flow diagram for the development and qualification of a WPS. This document defines general rules for the specification and qualification of welding procedures for metallic materials. This document also refers to several other standards as regards detailed rules for specific applications. This document is applicable to manual, partly mechanized, fully mechanized and automated welding. Welding procedures are qualified by conforming to one or more welding procedure qualification records (WPQR). The use of a particular method of qualification is often a requirement of an application standard. It is assumed that welding procedure specifications are used in production by competent welders, qualified in accordance with the relevant part of ISO 9606 or by competent operators qualified in accordance with ISO 14732.

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This document is part of a series of standards dealing with specification and qualification of welding procedures. Annex A gives details of this series of standards, Annex B gives a table for the use of these standards, and Annex C gives a flow diagram for the development and qualification of a WPS.
This document defines general rules for the specification and qualification of welding procedures for metallic materials. This document also refers to several other standards as regards detailed rules for specific applications.
This document is applicable to manual, partly mechanized, fully mechanized and automated welding.
Welding procedures are qualified by conforming to one or more welding procedure qualification records (WPQR). The use of a particular method of qualification is often a requirement of an application standard.
It is assumed that welding procedure specifications are used in production by competent welders, qualified in accordance with the relevant part of ISO 9606 or by competent operators qualified in accordance with ISO 14732.

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This document specifies quality levels for imperfections in arc-welded joints in aluminium and its
alloys. It applies to material thicknesses above 0,5 mm.
Three quality levels are given in order to permit application to a wide range of welded constructions.
They are designated by symbols B, C and D. Quality level B corresponds to the highest requirement
on the finished weld. The quality levels refer to production quality and not to the fitness for purpose
(see 3.2) of the product manufactured.
This document is applicable to all types of welds (e.g. butt welds, fillet welds and branch connections),
to manual, mechanized and automated welding, and to all welding positions.
It is applicable to the following welding processes:
— metal inert gas welding (MIG welding); gas metal arc welding /USA;
— tungsten inert gas welding (TIG welding); gas tungsten arc welding /USA;
— plasma arc welding.
It is not applicable to metallurgical aspects (e.g. grain size, hardness).

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This document specifies quality levels for imperfections in arc-welded joints in aluminium and its alloys. It applies to material thicknesses above 0,5 mm.
Three quality levels are given in order to permit application to a wide range of welded constructions. They are designated by symbols B, C and D. Quality level B corresponds to the highest requirement on the finished weld. The quality levels refer to production quality and not to the fitness for purpose (see 3.2) of the product manufactured.
This document is applicable all types of weld (e.g. butt welds, fillet welds and branch connections), to, manual, mechanized and automatic welding, and to all welding positions.
It is applicable to the following welding processes:
- metal inert gas welding (MIG welding); gas metal arc welding /USA;
- tungsten inert gas welding (TIG welding); gas tungsten arc welding /USA;
- plasma arc welding.
It is not applicable to metallurgical aspects (e.g. grain size, hardness).

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2016-01-19: If the vote is accepted update directive information in mother standard.
Common modifications to be merged with PR=60123

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2016-01-19: If the vote is accepted update directive information in mother standard.
Common modifications intended for merge with PR=60123 & then transformed to homegrown AMD, as mother EN published as IEC identical

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This document specifies techniques for detection of surface imperfections in welds in ferromagnetic
materials, including the heat affected zones, by means of magnetic particle testing. The techniques are
suitable for most welding processes and joint configurations. Variations in the basic techniques that
will provide a higher or lower test sensitivity are described in Annex A.
This document does not specify acceptance levels of the indications. Further information on acceptance
levels for indications may be found in ISO 23278 or in product or application standards.

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ISO 17638:2016 specifies techniques for detection of surface imperfections in welds in ferromagnetic materials, including the heat affected zones, by means of magnetic particle testing. The techniques are suitable for most welding processes and joint configurations. Variations in the basic techniques that will provide a higher or lower test sensitivity are described in Annex A.
ISO 17638:2016 does not specify acceptance levels of the indications. Further information on acceptance levels for indications may be found in ISO 23278 or in product or application standards.

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This European Standard specifies the requirements for the design and calculation of water-tube boilers as defined in EN 12952-1. The purpose of this European Standard is to ensure that the hazards associated with water-tube boilers are reduced to a minimum by the proper application of the design according to this part of EN 12952.

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This part of ISO 898 specifies mechanical and physical properties of nuts with coarse thread and fine pitch
thread made of carbon steel and alloy steel when tested at an ambient temperature range of 10 °C to 35 °C.
Nuts conforming to the requirements of this part of ISO 898 are evaluated at that ambient temperature range.
It is possible that they do not retain the specified mechanical and physical properties at elevated and/or lower
temperatures.
NOTE 1 Nuts conforming to the requirements of this part of ISO 898 have been used in applications
ranging from ?50 °C to +150 °C. It is the responsibility of users to consult an experienced fastener materials expert
for temperatures outside the range of ?50 °C to +150 °C and up to a maximum temperature of +300°C to determine
appropriate choices for a given application.
NOTE 2 Information for the selection and application of steels for use at lower and elevated temperatures is given for
instance in EN 10269, ASTM F2281 and in ASTM A320/A320M.
This part of ISO 898 is applicable to nuts:
a) made of carbon steel or alloy steel;
b) with coarse thread M5 ≤ D ≤ M39, and fine pitch thread M8×1 ≤ D ≤ M39×3;
c) with triangular ISO metric thread according to ISO 68-1;
d) with diameter/pitch combinations according to ISO 261 and ISO 262;
e) with specified property classes, including proof load;
f) with different nut styles: thin nuts, regular nuts and high nuts;
g) with minimum height m ≥ 0,45D;
h) with a minimum outside diameter or width across flats s ≥ 1,45D (see Annex A);
i) able to mate with bolts, screws and studs with property classes according to ISO 898-1.
For hot dip galvanized nuts, see ISO 10684.
This part of ISO 898 does not specify requirements for properties such as:
— prevailing torque properties (see ISO 2320);
— torque/clamp force properties (see ISO 16047 for test method);
— weldability;
— corrosion resistance.

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ISO - Taking over of an ISO Technical Corrigendum (Cor.2)
         Cor.1 cannot be taken over because of its conflicting superseding information

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ISO 6520-1:2007 serves as the basis for a precise classification and description of weld imperfections.
In order to avoid any confusion, the types of imperfection are defined with explanations and illustrations where necessary.
Metallurgical imperfections are not included.
Another system for the designation of imperfections is possible according to ISO/TS 17845. A correspondence is given between the existing classification of imperfections according to ISO 6520-1:2007 and the designation system according to ISO/TS 17845:2004.

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EN 15181:2007+A1specifies the method of test for determining the gas energy consumption in gas-fired domestic ovens when they are being used in one or more of the oven cooking modes defined in 3. 1. It applies to the gas-fired domestic ovens which are capable of utilizing gases of group H or group E !or third family gases", possibly after conversion according to instructions for use.This European Standard applies to these gas-fired domestic ovens, whether they are separate appliances or component parts of domestic cooking appliances.This European Standard also applies to domestic appliances that can utilize gas and/or electrical energy to provide heat for cooking when the ovens are utilizing gas energy to provide heat for cooking, but not when electric energy is used to provide any or all of the heat for cooking in the oven.It is not applicable to:- microwave combination ovens;- small cavities ovens (3.2);- oven cavities not provided with devices to detect and control the temperature for the preparation of food;- cooking modes others than defined in 3.1.1 and 3.1.2;- ovens connected to a chimney in which the gas energy for cooking provides, by design, also space and/or water heating;!Deleted text"This European Standard is concerned neither with safety nor with overall performance requirements.

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Addition of a new normative Annex, for the requirement for peaking, based upon the requirements currently set out in EN 13445-4:2002 (clause 5.4.4).

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ISO 15614-2:2005 specifies how a preliminary welding procedure specification is qualified by welding procedure tests.
It applies to the arc welding of wrought and cast aluminium and its alloys.
It does not apply to finishing welding of aluminium castings, which is dealt with by ISO 15614-4.

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This Part of this European Standard applies to the design and manufacture of welded, simple unfired pressure vessels manufactured in series, with a single compartment, here-in-after referred to as vessels, the essential safety requirements of which are given in Annex G. It only applies to vessels that: a) include fabrication by welding, but some designs can entail the use of bolts; b) have a simple geometry enabling simple-to-use production procedures.

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This Part of this European Standard applies to the design and manufacture of welded, simple unfired pressure vessels manufactured in series, with a single compartment, here-in-after referred to as vessels, the essential safety requirements of which are given in Annex G. It only applies to vessels that: a) include fabrication by welding, but some designs can entail the use of bolts; b) have a simple geometry enabling simple-to-use production procedures.

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This Part of this European Standard is applicable to simple unfired steel pressure vessels, referred to as "vessel" in this standard, designed for air braking equipment and auxiliary pneumatic equipment for railway rollingstock.

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This Part of this European Standard is applicable to simple unfired steel pressure vessels, referred to as "vessel" in this standard, designed for air braking equipment and auxiliary pneumatic equipment for railway rolling stock.

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This part of EN 586 specifies the mechanical properties and additional properties of forgings in aluminium and aluminium alloys for general engineering applications. The chemical composition and temper designations for these alloys are specified in EN 573-3 and EN 515 respectively.

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1.1 This part of this European Standard applies to the design and manufacture of simple unfired serially made pressure vessels, hereinafter referred to as vessels, designed for air breaking equipment and auxiliary systems for motor vehicles and their trailers, and which:    a)  include fabrication by welding;     b)  have a simple geometry enabling simple-to-use production procedures. This is achieved by either:    1) a cylindrical shell of circular cross section closed by outwardly dished and/or flat ends having the same axis of revolution as the shell; or:    2) two dished ends having the same axis of revolution.     c) have branches not larger in diameter than 0,5 of the diameter of the cylinder to which they are welded.  1.2 It applies to vessels which are intended to contain only compressed air, and which operate within the following constraints:   a) subjected to an internal pressure greater than 0,5 bar;    b) the parts and assemblies contributing to the strength of the vessel under pressure to be made either of non-alloy quality steel or of non-alloy aluminium or non-age hardening aluminium alloys;   c) maximum working pressure 30 bar. The product of that pressure and the capacity of the vessel (PS.V) is greater than 50 bar.litre and not exceeding 1500 bar.litre;   d) minimum working temperature - 50 øC and maximum working termperature not higher than 100 øC.   It does not apply to vessels specifically designed for nuclear use, to vessels specifically intended for installation in or the propulsion of ships and aircraft, or to fire extinguishers.  1.3 The essential safety requirements are given in annex G.

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This Part of this European Standard is applicable to simple unfired steel pressure vessels, referred to as "vessel" in this standard, designed for air braking equipment and auxiliary pneumatic equipment for railway rolling stock.

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1.1 This part of this European Standard applies to the design and manufacture of simple unfired serially made pressure vessels, hereinafter referred to as vessels, designed for air breaking equipment and auxiliary systems for motor vehicles and their trailers, and which:    a)  include fabrication by welding;     b)  have a simple geometry enabling simple-to-use production procedures. This is achieved by either:    1) a cylindrical shell of circular cross section closed by outwardly dished and/or flat ends having the same axis of revolution as the shell; or:    2) two dished ends having the same axis of revolution.     c) have branches not larger in diameter than 0,5 of the diameter of the cylinder to which they are welded.  1.2 It applies to vessels which are intended to contain only compressed air, and which operate within the following constraints:   a) subjected to an internal pressure greater than 0,5 bar;    b) the parts and assemblies contributing to the strength of the vessel under pressure to be made either of non-alloy quality steel or of non-alloy aluminium or non-age hardening aluminium alloys;   c) maximum working pressure 30 bar. The product of that pressure and the capacity of the vessel (PS.V) is greater than 50 bar.litre and not exceeding 1500 bar.litre;   d) minimum working temperature - 50 øC and maximum working termperature not higher than 100 øC.   It does not apply to vessels specifically designed for nuclear use, to vessels specifically intended for installation in or the propulsion of ships and aircraft, or to fire extinguishers.  1.3 The essential safety requirements are given in annex G.

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1.1   This document is applicable to simple unfired steel pressure vessels, referred to as “vessel” in this document, designed for air braking equipment and auxiliary pneumatic equipment for railway rolling stock (see Clause 13).
It defines three types of vessel A, B and C (see Table 1) corresponding to the current practice of European railway networks.
1.2   The vessels in this document are:
a)   made from a single shell;
b)   made from non-alloy steel;
c)   fabricated by welding;
d)   used at a maximum working pressure of 15 bar;
e)   the product of the maximum working pressure (in bar) and the volume (in litre): 50 bar litres < PV ≤ 10 000 bar litres;
f)   made of a cylindrical part of circular cross-section called the shell with two outwardly dished torispherical ends, that is two dished ends with the same axis of rotation. This document therefore does not apply to vessels with one or two flat ends or those made up of several compartments;
g)   calculated with a design pressure P (see 5.1.4.1.2);
h)   designed for a working temperature of between −40 °C and +100 °C;
i)   fastened to vehicles:
1)   by straps for types A and B vessels,
2)   by welded brackets for types B and C vessels.
1.3   In normal service, a momentary overpressure of 10 % of PS, the maximum working pressure PS, is permitted.
1.4   This document applies to the vessel proper, from the inlet connection to the outlet connection and to all other connections and fittings belonging to the vessel.
1.5   This document gives the requirements to be met for the calculation, design, fabrication, inspection during fabrication and certification of the vessel, and fittings for assembly to the vehicle.
These requirements cannot be written in sufficient detail to ensure good workmanship or proper construction. Each manufacturer is therefore responsible for taking every necessary step to make sure that the quality of workmanship and construction is such as to ensure compliance with good engineering practice.
This document gives:
a)   in Annex B, recommendations for assembly to the vehicles;
b)   in Annex C, recommendations for the service surveillance of type A vessels;
c)   in Annex D, recommendations for the service surveillance of types B and C vessels.
The requirements of this document apply to vessels designed to be fitted to rail vehicles.

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1.1   This document applies to the design and manufacture of simple unfired serially made pressure vessels, herein after referred to as vessels, designed for air breaking equipment and auxiliary systems for motor vehicles and their trailers, and which:
a)   include fabrication by welding;
b)   have a simple geometry enabling simple-to-use production procedures. This is achieved by either:
1)   a cylindrical shell of circular cross section closed by outwardly dished and/or flat ends having the same axis of revolution as the shell; or:
2)   two dished ends having the same axis of revolution;
c)   have branches not larger in diameter than 0,5 of the diameter of the cylinder to which they are welded.
1.2   It applies only to vessels intended to contain compressed air, and which operate within the following constraints:
a)   subjected to an internal pressure greater than 0,5 bar;
b)   the parts and assemblies contributing to the strength of the vessel under pressure to be made either of non-alloy quality steel or of non-alloy aluminium or non-age hardening aluminium alloys;
c)   maximum working pressure 30 bar, the product of that pressure and the capacity of the vessel (PS ∙ V) is greater than 50 bar litres and not exceeding 1 500 bar litres;
d)   capacity not exceeding 150 litres;
e)   minimum working temperature not lower than −50 °C and maximum working temperature not higher than 100 °C.
It does not apply to vessels specifically designed for nuclear use, to vessels specifically intended for installation in or the propulsion of ships and aircraft, or to fire extinguishers.

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ISO 15607:2003 defines general rules for the specification and qualification of welding procedures for metallic materials.
It also refers to several other standards as regards detailed rules for specific applications. ISO 15607:2003 is applicable to manual, mechanized and automatic welding.

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ISO 2553 defines the rules to be applied for symbolic representation of welded, brazed and soldered joints in metallic materials on technical drawings. This can include information about the geometry, manufacture, quality and testing of the welds. This International standard is a combined specification that recognizes that there are two different approaches in the global market to designate the arrow side and other side on drawings. It should be noted that: - Clauses, Tables and Figures which carry the suffix letter "A" are applicable only to the symbolic representation system based on the dual reference line; - Clauses, Tables and Figures which carry the suffix letter "B" are applicable only to the symbolic representation system based on the single reference line; - Clauses, Tables and Figures which do not have the suffix letter "A" or the suffix letter "B" are applicable to both systems.The symbols shown in this International Standard can be combined with other symbols used on technical drawings for example to show surface finish requirements.

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ISO 2553:2013 defines the rules to be applied for symbolic representation of welded joints on technical drawings. This may include information about the geometry, manufacture, quality and testing of the welds. The principles of this standard may also be applied to soldered and brazed joints.
It is recognized that there are two different approaches in the global market to designate the arrow side and other side on drawings. In ISO 2553:2013: sections, tables and figures which carry the suffix letter "A" are applicable only to the symbolic representation system based on a dual reference line; sections, tables and figures which carry the suffix letter "B" are applicable only to the symbolic representation system based on a single reference line; sections, tables and figures which do not have the suffix letter "A" or "B" are applicable to both systems.
The symbols shown may be combined with other symbols used on technical drawings, for example to show surface finish requirements.
An alternative designation method is presented which may be used to represent welded joints on drawings by specifying essential design information such as weld dimensions, quality level, etc. The joint preparation and welding process(es) are then determined by the production unit in order to meet the specified requirements.

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ISO 10042:2005 specifies quality levels for imperfections in arc-welded joints in aluminium and its alloys. It applies to material thicknesses above 0,5 mm. It covers full-penetration butt welds and all fillet welds. The principles of the standard may also be applied to partial-penetration butt welds.
Three quality levels are given in order to permit application to a wide range of welded constructions. The quality levels refer to production quality and not to the fitness for purpose of the product manufactured.
The standard applies to:
all types of weld, e.g. butt welds, fillet welds and branch connections;
the following welding processes and their sub-processes as defined in ISO 4063:
131....metal inert gas welding (MIG welding); gas metal arc welding /USA/,
141....tungsten inert gas welding (TIG welding); gas tungsten arc welding /USA/,
15......plasma arc welding;
manual, mechanized and automatic welding;
all welding positions.
Metallurgical aspects, e.g. grain size, hardness, are not covered by the standard.

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This document specifies the technical delivery requirements for flat products and bars made of steel in accordance with the specifications for pressurized parts in simple pressure vessels as defined in the Directive 87/404/EEC (see Annex A) and standardized in EN 286-1 to -3.

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2011-04-04 EMA: draft for // final vote received in ISO/CS (see notification of 2011-03-30 in dataservice).
MINOR AMENDMENT!!!     MINOR AMENDMENT!!!     MINOR AMENDMENT!!!     MINOR AMENDMENT!!!

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2011-04-04 EMA: draft for // final vote received in ISO/CS (see notification of 2011-03-30 in dataservice).
MINOR AMENDMENT!!!     MINOR AMENDMENT!!!     MINOR AMENDMENT!!!     MINOR AMENDMENT!!!

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ISO 15614-1:2004 specifies how a preliminary welding procedure specification is qualified by welding procedure tests.
It defines the conditions for the execution of welding procedure tests and the range of qualification for welding procedures for all practical welding operations within a range of variables. Additional tests may be required by application standards.
ISO 15614-1:2004 applies to the arc and gas welding of steels in all product forms and the arc welding of nickel and nickel alloys in all product forms.
Arc and gas welding are covered by the following processes:
manual metal arc welding (metal-arc welding with covered electrode);
self-shielded tubular-cored arc welding;
submerged arc welding;
metal inert gas welding, MIG welding;
metal active gas welding, MAG welding;
tubular-cored metal arc welding with active gas shield;
tubular-cored metal arc welding with inert gas shield;
tungsten inert gas arc welding; TIG welding;
plasma arc welding;
oxy-acetylene welding.
The principles of ISO 15614-1:2004 may be applied to other fusion welding processes.

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ISO 17638:2003 specifies techniques for detection of surface imperfections in welds in ferromagnetic materials, including the heat affected zones, by means of magnetic particle testing. The techniques are suitable for most welding processes and joint configurations.

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This European Standard outlines the general rules for industrial X- and gamma radiography for flaw detection purposes, using film techniques, applicable to the inspection of metallic materials.   The examination shall be carried out by competent personnel qualified and certified according to EN 473 where applicable.   It does not lay down acceptance criteria of the imperfections.

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This European Standard defines the qualification testing of welders for the fusion welding of steels.
It provides a set of technical rules for a systematic qualification test of the welder, and enables such qualifications to be uniformly accepted independently of the type of product, location and examiner/examining body.
When qualifying welders, the emphasis is placed on the welder's ability to manually manipulate the electrode / welding torch / welding blowpipe and thereby producing a weld of acceptable quality.
The welding processes referred to in this standard include those fusion-welding processes which are designated as manual or partly mechanized welding. It does not cover fully mechanized and automated welding processes (see EN 1418).

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This European Standard defines the qualification testing of welders for the fusion welding of steels.
It provides a set of technical rules for a systematic qualification test of the welder, and enables such qualifications to be uniformly accepted independently of the type of product, location and examiner/examining body.
When qualifying welders, the emphasis is placed on the welder's ability to manually manipulate the electrode / welding torch / welding blowpipe and thereby producing a weld of acceptable quality.
The welding processes referred to in this standard include those fusion-welding processes which are designated as manual or partly mechanized welding. It does not cover fully mechanized and automated welding processes (see EN 1418).

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This European Standard specifies fundamental techniques of radiography with the object of enabling satisfactory and repeatable results to be obtained economically. The techniques are based on generally recognized practice and fundamental theory of the subject.  This standard applies to the radiographic examination of fusion welded joints in metallic materials.  It applies to the joints of plates or pipes. Besides its conventional meaning, "pipe" as used in this standard should be understood to cover other cylindrical bodies such as tubes, penstocks, boiler drums and pressure vessels. This standard compies with EN 444.  This standard does not specify acceptance levels of the indications.  If contracting parties apply lower test criteria, the quality achieved may be significantly lower than when this standard is stricly applied.

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Applies to nuts with nominal thread diameters up to and including 39 mm, specific mechanical requirements, widths across flats as specified in ISO 272, nominal heights greater than or equal to half the nominal diameter of the internal thread, made of carbon steel or low alloy steel. Does not apply to nuts requiring special properties (such as weldability, corrosion resistance, etc.). Values apply when tests are made at room temperature.

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This European Standard defines the qualification test of welders for the fusion welding of steels.
It provides a set of technical rules for a systematic qualification test of the welder, and enables such qualifications to be uniformly accepted independently of the type of product, location and examiner/examining body.
When qualifying welders, the emphasis is placed on the welders ability to manually manipulate the electrode/ welding torch/ welding blowpipe and thereby producing a weld of acceptable quality.
The welding processes referred to in this European Standard include those fusion welding processes which are designated as manual or partly mechanized welding. It does not cover fully mechanized and automated welding processes (see EN 1418).

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