25.160.40 焊接接头 标准查询与下载

ISO 7963:2022 无损检测.超声波检测.第2号校准块规范

This document specifies the requirements for the dimensions, material, manufacture and methods of use for calibration block No. 2 for setting and checking ultrasonic test equipment.

Non-destructive testing — Ultrasonic testing — Specification for calibration block No. 2

KS C ISO 14270:2022 电阻焊.焊缝的破坏性试验.电阻点焊、缝焊和凸焊的机械剥离试验用试样尺寸和程序

Resistance welding — Destructive testing of welds — Specimen dimensions and procedure for mechanized peel testing resistance spot, seam and embossed projection welds

KS C ISO 14270-2022 电阻焊.焊缝的破坏性试验.电阻点焊、缝焊和凸焊的机械剥离试验用试样尺寸和程序

Resistance welding — Destructive testing of welds — Specimen dimensions and procedure for mechanized peel testing resistance spot, seam and embossed projection welds

ASTM F722-18(2022) 船用管道系统焊接接头的标准规范

1.1 This specification covers typical details of welded joints commonly used in shipboard piping systems. These joints and other joints may be used provided the welding procedures used have been qualified in accordance with the applicable regulatory rules and regulations. 1.2 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. 1.3 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 Specification for Welded Joints for Shipboard Piping Systems

ISO 17636-2:2022 焊缝无损检测.射线照相检测.第2部分:带数字探测器的X射线和γ射线技术

This document specifies techniques of digital radiography with the object of enabling satisfactory and repeatable results. The techniques are based on generally recognized practice and fundamental theory of the subject. This document applies to the digital radiographic testing of fusion welded joints in metallic materials. It applies to the joints of plates and pipes. Besides its conventional meaning, “pipe”, as used in this document, covers other cylindrical bodies such as tubes, penstocks, boiler drums and pressure vessels. This document specifies the requirements for digital radiographic X- and gamma-ray testing by either computed radiography (CR) or radiography with digital detector arrays (DDAs) of the welded joints of metallic plates and tubes for the detection of imperfections. It includes manual and automated inspection with DDAs. Digital detectors provide a digital grey value image which can be viewed and evaluated using a computer (Annex E). This document specifies the recommended procedure for detector selection and radiographic practice. Selection of computer, software, monitor, printer and viewing conditions are important, but are not the main focus of this document. The procedure specified in this document provides the minimum requirements for radiographic practice which permits exposure and acquisition of digital radiographs with equivalent sensitivity for the detection of imperfections as film radiography (specified in ISO 17636-1). This document does not specify acceptance levels for any of the indications found on the digital radiographs. ISO 10675 provides information on acceptance levels for weld inspection. If contracting parties applylower testcriteria, itis possible thatthe qualityachieved will be significantly lower than when this document is strictly applied.

Non-destructive testing of welds — Radiographic testing — Part 2: X- and gamma-ray techniques with digital detectors

BS EN ISO 17636-1:2022 焊缝的无损检测 射线照相测试 胶片 X 射线和伽马射线技术

We have also published  BS EN ISO 17636-2  Non-destructive testing of welds. Radiographic testing - X- and gamma-ray techniques with digital detectors.  Learn more here. What is BS EN ISO 17636-1 - Non-destructive testing of welds about? Non-destructive testing (NDT) is a technique used by industry to evaluate a material, component, structure, or system for differences or defects, without causing damage to the original part. NDT techniques include magnetic particle testing, penetrant testing, ultrasonic testing and radiographic testing. BS EN ISO 17636-1 is an international standard that describes radiographic testing of welds using X- and gamma-ray techniques with film. Who is BS EN ISO 17636-1 - Non-destructive testing of welds for? Within the oil and gas, rail, manufacturing and nuclear industries it will be used by: NDT site managers Specialist inspectors Technologists Project managers NDT experts Research and development e...

Non-destructive testing of welds. Radiographic testing. X- and gamma-ray techniques with film

DB62/T 4570-2022 PE管道对接焊接接头X射线数字成像检测技术

X-ray digital imaging detection technology of PE pipe butt welding joint

EN ISO 17636-1:2022 无损检测的焊缝射线检测-第1部分:X -和γ射线技术与电影

This document specifies techniques of radiographic testing of fusion-welded joints in metallic materials using industrial radiographic film techniques with the object of enabling satisfactory and repeatable results. The techniques are based on generally recognized practice and fundamental theory of the subject. It applies to the joints of plates and pipes in metallic materials. Besides its conventional meaning, “pipe” as used in this document covers other cylindrical bodies, such as tubes, penstocks, boiler drums and pressure vessels. This document does not specify acceptance levels for any of the indications found on the radiographs. The ISO 10675 series provides information on acceptance levels for weld evaluation. If contracting parties apply lower test criteria, it is possible that the quality achieved will be significantly lower than when this document is strictly applied.

Non-destructive testing of welds - Radiographic testing - Part 1: X- and gamma-ray techniques with film (ISO 17636-1:2022)

BS EN ISO 4136:2022 金属材料焊缝的破坏性试验 横向拉伸试验

1   Scope This document specifies the sizes of test specimen and the procedure for carrying out transverse tensile tests in order to determine the tensile strength and the location of fracture of a welded butt joint. This document applies to metallic materials in all forms of product with joints made by any welded butt joint.

Destructive tests on welds in metallic materials. Transverse tensile test

ISO 17636-1:2022 焊缝无损检测.射线照相检测.第1部分:带胶片的X射线和γ射线技术

This document specifies techniques of radiographic testing of fusion-welded joints in metallic materials using industrial radiographic film techniques with the object of enabling satisfactory and repeatable results. The techniques are based on generally recognized practice and fundamental theory of the subject. It applies to the joints of plates and pipes in metallic materials. Besides its conventional meaning, “pipe” as used in this document covers other cylindrical bodies, such as tubes, penstocks, boiler drums and pressure vessels. This document does not specify acceptance levels for any of the indications found on the radiographs. If contracting parties apply lower test criteria, it is possible that the quality achieved will be significantly lower than when this document is strictly applied.

Non-destructive testing of welds — Radiographic testing — Part 1: X- and gamma-ray techniques with film

BS EN ISO 9016:2022 金属材料焊缝的破坏性试验 冲击测试 测试样本位置、缺口方向和检查

1   Scope This document specifies the method to be used when describing test specimen location and notch orientation for the testing and reporting of impact tests on welded butt joints. This document applies to impact tests on metallic materials in all forms of product made by any fusion and pressure welding process. It is used in addition to the ISO 148 series and includes test specimen denomination and additional reporting requirements.

Destructive tests on welds in metallic materials. Impact tests. Test specimen location, notch orientation and examination

KS B ISO 9692-1:2022 焊接和相关工艺.接头制备类型.第1部分:钢的手工金属电弧焊 气体保护金属电弧焊 气焊 TIG焊和束焊

Welding and allied processes — Types of joint preparation —Part 1: Manual metal arc welding, gas-shielded metal arc welding,gas welding, TIG welding and beam welding of steels

KS B ISO 6947:2022 焊接和相关工艺.焊接位置

Welding and allied processes — Welding positions

KS B ISO 6947-2022 焊接和相关工艺.焊接位置

Welding and allied processes — Welding positions

KS B ISO 9692-1-2022 焊接和相关工艺.接头制备类型.第1部分:钢的手工金属电弧焊 气体保护金属电弧焊 气焊 TIG焊和束焊

Welding and allied processes — Types of joint preparation —Part 1: Manual metal arc welding, gas-shielded metal arc welding,gas welding, TIG welding and beam welding of steels

EN ISO 4136:2022 金属材料焊接的破坏性试验.横向拉伸试验

This document specifies the sizes of test specimen and the procedure for carrying out transverse tensile tests in order to determine the tensile strength and the location of fracture of a welded butt joint. This document applies to metallic materials in all forms of product with joints made by any welded butt joint.

Destructive tests on welds in metallic materials - Transverse tensile test (ISO 4136:2022)

ISO 4136:2022 钢的对接焊.横向抗拉伸强度

This document specifies the sizes of test specimen and the procedure for carrying out transverse tensile tests in order to determine the tensile strength and the location of fracture of a welded butt joint. This document applies to metallic materials in all forms of product with joints made by any welded butt joint.

Destructive tests on welds in metallic materials — Transverse tensile test

DB43/T 2314-2022 特种设备焊接残余应力盲孔法测试方法

Blind hole test method for welding residual stress of special equipment

KS M 3517-2022 流体输送用热塑性管道 相控阵超声波法聚乙烯电熔接头

Thermoplastic pipes for the conveyance of fluids－Polyethylene electrofusion joints using phase array ultrasonic method

BS EN ISO 23864:2021 焊缝的无损检测 超声波检测 使用自动全聚焦技术（TFM）及相关技术

1   Scope This document specifies the application of the TFM technique and related technologies for semi- or fully automated ultrasonic testing of fusion- welded joints in metallic materials of minimum thickness 3,2 mm. NOTE Unless stated otherwise, in this document ‘TFM” and ‘TFM technique” refer to the TFM technique as defined in ISO 23243, and to all related technologies, see for example ISO 23865 and ISO 23243. This document is applicable to components with welds fabricated using metals which have isotropic (constant properties in all directions) and homogeneous conditions. This includes welds in low carbon alloy steels and common aerospace grade aluminium and titanium alloys, provided they are homogeneous and isotropic. This document applies to full penetration welded joints of simple geometry in plates, pipes and vessels. This document specifies four testing levels (A, B, C, D), each corresponding to a different probability of detection of imperfections. Guidance on the selection of testing levels is provided. Coarse-grained metals and austenitic welds can be tested when the provisions of this document have been taken into account. This document gives provisions on the specific capabilities and limitations of the TFM technique for the detection, locating, sizing and characterization of discontinuities in fusion-welded joints. The TFM technique can be used as a stand-alone approach or in combination with other non-destructive testing (NDT) methods for manufacturing, in-service and post-repair tests. ...

Non-destructive testing of welds. Ultrasonic testing. Use of automated total focusing technique (TFM) and related technologies