25.160.40 焊接接头 标准查询与下载

KS B ISO 13919-2-2023 电子束和激光束焊接接头缺陷质量等级的要求和建议第2部分:铝、镁及其合金和纯铜

Electron and laser-beam welded joints — Requirements and recommendations on quality levels for imperfections — Part 2: Aluminium, magnesium and their alloys and pure copper

KS B ISO 3690-2023 焊接及相关工艺电弧焊接金属中氢含量的测定

Welding and allied processes — Determination of hydrogen content in arc weld metal

KS B ISO 13919-1-2023 电子束和激光束焊接接头缺陷质量等级的要求和建议第1部分:钢、镍、钛及其合金

Electron and laser-beam welded joints — Requirements and recommendations on quality levels for imperfections — Part 1: Steel, nickel, titanium and their alloys

KS B ISO 6520-1-2023 焊接及相关工艺金属材料几何缺陷的分类第1部分:熔焊

Welding and allied processes — Classification of geometric imperfections in metallic materials — Part 1: Fusion welding

T/CWAN 0096-2023 基于数字图像相关技术的焊接接头和堆焊接头 剪切性能测试方法

本文件规定了一种用于金属材料对接、搭接（点焊和缝焊）和堆焊接头剪切性能测试方法所涉及的试样制备、试验过程和测试方法等内容。 本文件适用于金属材料对接、搭接（点焊和缝焊）和堆焊接头采用数字图像相关技术进行剪切性能测试。

DIC-based test method for shear properties of welded joint and surfacing joint

23/30477726 DC BS EN 12814-8 热塑性塑料半成品焊接接头的测试 第8部分：要求

BS EN 12814-8. Testing of welded joints of thermoplastics semi-finished products - Part 8. Requirements

KS B ISO 22825-2023 焊缝无损检测超声波检测奥氏体钢和镍基合金焊缝的检测

Non-destructive testing of welds — Ultrasonic testing — Testing of welds in austenitic steels and nickel-based alloys

KS B ISO 23277-2023 焊缝无损检测焊缝渗透检测验收等级

Non-destructive testing of welds — Penetrant testing of welds — Acceptance levels

KS B ISO 23278-2023 焊缝无损检测焊缝磁粉检测验收等级

Non-destructive testing of welds — Magnetic particle testing of welds — Acceptance levels

BS EN ISO 5173:2023 金属材料焊缝的破坏性试验 弯曲测试

This document specifies a method for making transverse root, face and side bend tests on test specimens taken from butt welds, butt welds with cladding (subdivided into welds in clad plates and clad welds) and cladding without butt welds, in order to reveal imperfections on or near the surface of the test specimen which is under tension during bend testing and/or assess ductility. It also gives the dimensions of the test specimen. In addition, this document specifies methods to be used instead of transverse bend tests with a former for welded joints when base materials, heat affected zones and/or weld metal have a significant difference in their physical and mechanical properties in relation to bending. This document applies to metallic materials in all forms of product with welded joints made by any welding process.

Destructive tests on welds in metallic materials. Bend tests

ISO/CD 17635:2023 焊缝无损检测金属材料通用规则

Non-destructive testing of welds — General rules for metallic materials

BS EN ISO 5817:2023 焊接 钢、镍、钛及其合金的熔焊接头（束焊除外） 缺陷质量等级

What is BS EN ISO 5817 - Fusion-welded joints about? This is an international standard on assigning quality levels to fusion welded joints, based on the physical dimensions of typical and discernible imperfections in the weld. The purpose of BS EN ISO 5817 is to provide widely applicable process control acceptance criteria. You can learn more about how to implement this standard by downloading our free Executive Briefing . Who is BS EN ISO 5817 - Fusion-welded joints for? For use in the oil and gas, automotive, nuclear, energy, aerospace, semiconductor and manufacturing sectors, users will be: Quality managers/assessors Qualification of welding personnel Welding, brazing or soldering personnel Engineers What does BS EN ISO 5817 - Fusion-welded joints cover? BS EN ISO 5817 specifies quality levels of imperfections in fusion-welded joints (except for beam welding) in all types of steel, nickel, titanium and their alloys. It applies to material thickness ≥ 0,5 mm and covers fully penetrated butt welds and all fillet welds. Its principles can also be applied to partial-penetration butt welds. Quality levels for beam-welded joints in steel are presented in ISO 13919-1 . Three quality levels are given in order to permit application to a wide range of welded fabrication. They are designated by symbols B, C and D. Quality level B corresponds to the highest requirement on the finished weld. Several types of loads are considered, e.g. static, thermal, c...

Welding. Fusion-welded joints in steel, nickel, titanium and their alloys (beam welding excluded). Quality levels for imperfections

EN ISO 5817:2023 焊接.钢,镍,钛和其合金的熔焊接头(束焊除外).缺陷的质量等级

This document specifies quality levels of imperfections in fusion-welded joints (except for beam welding) in all types of steel, nickel, titanium and their alloys. It applies to material thickness ≥ 0,5 mm. It covers fully penetrated butt welds and all fillet welds. Its principles can also be applied to partial-penetration butt welds. Quality levels for beam-welded joints in steel are presented in ISO 13919-1. Three quality levels are given in order to permit application to a wide range of welded fabrication. They are designated by symbols B, C and D. Quality level B corresponds to the highest requirement on the finished weld. Several types of loads are considered, e.g. static load, thermal load, corrosion load, pressure load. Additional guidance on fatigue loads is given in Annex B. The quality levels refer to production and good workmanship. This document is applicable to: a) non-alloy and alloy steels; b) nickel and nickel alloys; c) titanium and titanium alloys; d) manual, mechanized and automatic welding; e) all welding positions; f) all types of welds, e.g. butt welds, fillet welds and branch connections; g) the following welding processes and their sub-processes, as defined in ISO 4063: — 11 metal arc welding without gas protection; — 12 submerged arc welding; — 13 gas-shielded metal arc welding; — 14 gas-shielded arc welding with non-consumable tungsten electrode; — 15 plasma arc welding; — 31 oxyfuel gas welding (for steel only). Metallurgical aspects, such as grain size and hardness, are not covered by this document.

Welding - Fusion-welded joints in steel, nickel, titanium and their alloys (beam welding excluded) - Quality levels for imperfections (ISO 5817:2023)

KS B ISO 17638-2023 焊缝无损检测磁粉检测

Non destructive testing of welds Magnetic particle testing

KS B ISO 4761-2023 焊缝无损检测薄壁钢构件的相控阵超声检测（UT PA）验收等级

Non destructive testing of welds Phased array ultrasonic testing (UT PA) for thin walled steel components Acceptance levels

BS EN ISO 4761:2022 焊缝的无损检测 适用于薄壁钢部件的相控阵超声波检测（PAUT）接受程度

This document specifies acceptance levels for the phased array ultrasonic testing technique (UT-PA) of full-penetration welds in low-alloy and/or fine-grained steels in the wall thickness range from 3,2 mm to 8 mm which correspond to the quality levels of ISO 5817. These acceptance levels are applicable to indications detected according to ISO 20601.

Non-destructive testing of welds. Phased array ultrasonic testing (PAUT) for thin-walled steel components. Acceptance levels

ISO 5817:2023 钢弧焊接头 缺点质量分级指南

This document specifies quality levels of imperfections in fusion-welded joints (except for beam welding) in all types of steel, nickel, titanium and their alloys. It applies to material thickness ≥ 0,5 mm. It covers fully penetrated butt welds and all fillet welds. Its principles can also be applied to partial- penetration butt welds. Quality levels for beam-welded joints in steel are presented in ISO 13919-1. Three quality levels are given in order to permit application to a wide range of welded fabrication. They are designated by symbols B, C and D. Quality level B corresponds to the highest requirement on the finished weld. Several types of loads are considered, e.g. static load, thermal load, corrosion load, pressure load. Additional guidance on fatigue loads is given in Annex B. The quality levels refer to production and good workmanship. This document is applicable to: a) non-alloy and alloy steels; b) nickel and nickel alloys; c) titanium and titanium alloys; d) manual, mechanized and automatic welding; e) all welding positions; f) all types of welds, e.g. butt welds, fillet welds and branch connections; g) the following welding processes and their sub-processes, as defined in ISO 4063: — 11 metal arc welding without gas protection; — 12 submerged arc welding; — 13 gas-shielded metal arc welding; — 14 gas-shielded arc welding with non-consumable tungsten electrode; — 15 plasma arc welding; — 31 oxyfuel gas welding (for steel only). Metallurgical aspects, such as grain size and hardness, are not covered by this document.

Welding — Fusion-welded joints in steel, nickel, titanium and their alloys (beam welding excluded) — Quality levels for imperfections

ASTM E1416-23 焊接件射线检查的标准实施规程

1.1 This practice covers a uniform procedure for radioscopic examination of weldments. Requirements expressed in this practice are intended to control the quality of the radioscopic images and are not intended for controlling acceptability or quality of welds. 1.2 This practice applies only to the use of equipment for radioscopic examination in which the image is finally presented on a display screen (monitor) for operator evaluation. The examination may be recorded for later review. It does not apply to fully automated systems where evaluation is automatically performed by computer. 1.3 The radioscopic extent, the quality level, and the acceptance criteria to be applied shall be specified in the contract, purchase order, product specification, or drawings. 1.4 This practice can be used for the detection of discontinuities. This practice also facilitates the examination of a weld from several directions, such as perpendicular to the weld surface and along both weld bevel angles. The radioscopic techniques described in this practice provide adequate assurance for defect detectability; however, it is recognized that, for special applications, specific techniques using more stringent requirements may be needed to provide additional detection capability. The use of specific radioscopic techniques shall be agreed upon between purchaser and supplier. 1.5 Units—The values stated in inch-pound units are to be regarded as the standard. The SI units given in parentheses are for information only. 1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. Specific precautionary statements are given in Section 7. 1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Practice for Radioscopic Examination of Weldments

ASTM D2657-07(2023) 聚烯烃管和配件的热熔连接的标准实施规程

1.1 This practice describes general procedures for making joints with polyolefin pipe and fittings (excluding polyethylene pipe and fittings) by means of heat fusion joining techniques in either a shop or field environment. These procedures are general ones. Specific instructions for heat fusion joining are obtained from product manufacturers. See Practice F2620 for heat fusion joining of polyethylene pipe and fittings. 1.2 The techniques covered are applicable only to joining polyolefin pipe and fittings of related polymer chemistry, for example, polypropylenes to polypropylenes, or polybutylenes to polybutylenes. Material, density, and flow rate shall be taken into consideration in order to develop uniform melt viscosities and formation of a good fusion bond when joining the same material to itself or to other materials of related polymer chemistry. 1.3 Parts that are within the dimensional tolerances given in present ASTM specifications are required to produce sound joints between polyolefin pipe and fittings when using the joining techniques described in this practice. 1.4 The values stated in inch-pound units are to be regarded as standard. The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard. 1.5 The text of this practice references notes, footnotes, and appendixes which provide explanatory material. These notes and footnotes (excluding those in tables and figures) shall not be considered as requirements of the practice. 1.6 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use. See specific safety precautions in 3.1.1, 5.2, 8.2.3.1, Note 8 and Note 9, and A1.1. 1.7 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard Practice for Heat Fusion Joining of Polyolefin Pipe and Fittings

BS EN ISO 10447:2022 电阻焊 焊缝测试 电阻点焊和凸焊的剥离和凿子测试

1   ​Scope This document specifies the procedures and recommended tooling to be used for peel and chisel testing of resistance spot and embossed projection welds. This document applies to welds made in two or more sheets in the thickness range of 0,5 mm to 3,0 mm. The aim of these tests is to determine: — weld size and failure mode when welds are destructively tested; — verification of welds by non-destructive chisel tests. NOTE The preferred method of peel testing seam welds (mechanized peel testing) is covered in ISO 14270.

Resistance welding. Testing of welds. Peel and chisel testing of resistance spot and projection welds