ISO 17640:2010 焊接的无损检测 超声波检测 技术、检测水平和评定
标准编号:ISO 17640:2010
中文名称:焊接的无损检测 超声波检测 技术、检测水平和评定
英文名称:Non-destructive testing of welds — Ultrasonic testing — Techniques, testing levels, and assessment
发布日期:2010-12
标准范围
ISO 17640:2010规定了厚度大于或等于8 mm的金属材料中熔焊接头的手动超声波检测技术,这些材料在0°C至60°C的物体温度下具有较低的超声波衰减(尤其是由于散射)。该技术主要用于焊接材料和母材均为焊接材料的全熔透焊接接头铁素体。如果ISO 17640:2010中规定了与材料相关的超声波值,则这些值基于纵波的超声波声速为(5920±50)m/s,横波的超声波声速为(3255±30)m/s的钢材。ISO 17640:2010规定了四个测试级别,每个级别对应不同的缺陷检测概率。附录A中给出了选择A、B和C级测试的指南。ISO 17640:2010规定,针对特殊应用的D级测试要求应符合一般要求。只有在规范规定的情况下,才能使用D级测试。这包括铁素体钢以外的金属试验、部分熔透焊缝试验、自动化设备试验,以及在0°C至60°C范围外的物体温度下进行的试验。ISO 17640:2010可通过以下技术之一用于指示评估,用于验收目的:a)主要基于信号指示的长度和回波幅度进行评估;b) 基于探头移动技术对指示的表征和大小进行评估。应规定使用的技术。
ISO 17640:2010 specifies techniques for the manual ultrasonic testing of fusion-welded joints in metallic materials of thickness greater than or equal to 8 mm which exhibit low ultrasonic attenuation (especially that due to scatter) at object temperatures from 0 °C to 60 °C. It is primarily intended for use on full penetration welded joints where both the welded and parent material are ferritic.Where material-dependent ultrasonic values are specified in ISO 17640:2010, they are based on steels having an ultrasonic sound velocity of (5 920 ± 50) m/s for longitudinal waves and (3 255 ± 30) m/s for transverse waves.ISO 17640:2010 specifies four testing levels, each corresponding to a different probability of detection of imperfections. Guidance on the selection of testing levels A, B, and C is given in Annex A.ISO 17640:2010 specifies that the requirements of testing level D, which is intended for special applications, be in accordance with general requirements. Testing level D can only be used when defined by specification. This includes tests of metals other than ferritic steel, tests on partial penetration welds, tests with automated equipment, and tests at object temperatures outside the range 0 °C to 60 °C.ISO 17640:2010 can be used for the assessment of indications, for acceptance purposes, by either of the following techniques: a) evaluation based primarily on length and echo amplitude of the signal indication; b) evaluation based on characterization and sizing of the indication by probe movement techniques.The techniques used shall be specified.
标准预览图
