铁素体钢薄板对接焊缝相控阵超声检测标准分析
Analysis of Phased Array Ultrasonic Testing Standard for Ferrite steel Thin-Plate Butt Welds of Nuclear Power Plant
- 2023年53卷第6期 页码:122-128
DOI: 10.7512/j.issn.1001-2303.2023.06.18
扫 描 看 全 文
扫 描 看 全 文
张进,徐进,裴彦鹤.铁素体钢薄板对接焊缝相控阵超声检测标准分析[J].电焊机,2023,53(6):122-128.
ZHANG Jin, XU Jin, PEI Yanhe.Analysis of Phased Array Ultrasonic Testing Standard for Ferrite steel Thin-Plate Butt Welds of Nuclear Power Plant[J].Electric Welding Machine, 2023, 53(6): 122-128.
为推动相控阵超声检测技术在核电厂铁素体钢薄板对接焊缝上的工程应用,对国、内外适用于铁素体钢薄板对接焊缝相控阵超声检测技术标准的主要内容进行了分析,ISO 13588—2019、DL/T 1718—2017和NB/T 47013.15—2021比较适合作为核电厂薄板对接焊缝相控阵超声检测的参考标准,核电厂铁素体钢薄板对接焊缝相控阵超声检测应用可参考NB/T 47013.3—2015检测灵敏度和验收标准要求。该结论可为核电厂铁素体钢薄板对接焊缝相控阵超声检测技术的工程应用提供参考。
In order to promote the engineering application of PAUT technology in ferrite steel thin-plate butt welds of nuclear power plant, this paper compared and analyzed the major requirements of the domestic and foreign common PAUT standards which are applicable to ferrite steel thin-plate butt welds, ISO 13588—2019, DL/T 1718—2017, and NB/T 47013.15—2021 are more suitable as reference standards for phased array ultrasonic testing of thin-plate butt welds in nuclear power plants. The application of phased array ultrasonic testing of ferritic steel thin-plate butt welds in nuclear power plants can refer to the requirements of NB/T 47013.3—2015 for testing sensitivity and acceptance standards. This conclusion can provide reference for the engineering application of phased array ultrasonic testing technology for ferrite steel thin-plate butt welds of nuclear plant.
铁素体钢薄板对接焊缝相控阵超声检测核电厂标准
ferrite steel thin-platebutt weldsphased array testingnuclear plantstandard
郑晖,林树青. 超声检测[M]. 北京:中国劳动社会保障出版社,2008.
唐亮,张进,邓小云. 核电厂BOSS焊缝的相控阵超声检测[J]. 无损检测,2019,41(6):46-50.
TANG L,ZHANG J,DENG X Y. Phased Array Ultrasonic Testing of BOSS Weld in Nuclear Power Plant[J]. Nondestructive Testing, 2019,41(6):46-50.
潘亮,董世运,徐滨士,等. 相控阵超声检测技术研究与应用概况[J]. 无损检测,2013,35(5):26-29.
PAN L,DONG S Y,XU B S,et al. The Review of Study and Application of Phased Array Ultrasonic Testing Technology[J]. Nondestructive Testing, 2013, 35(5):26-29.
李衍. 超声相控阵技术第四部分工业应用实例[J]. 无损探伤,2008,32(3) :31-36.
LI Y. Phased Array Ultrasonic Testing Technology Part 4: Industrial application examples[J]. Nondestructive Testing Technology,2008,32(3):31-36.
李衍. 超声相控阵技术第四部分工业应用实例(续)[J]. 无损探伤,2008,32(4):21-29.
LI Y. Phased Array Ultrasonic Testing Technology Part 4: Industrial application examples (continued)[J]. No-ndestructive Testing Technology,2008,32(4):21-29.
金磊,丁兵. 相控阵超声检测技术标准简介[J]. 无损检测,2019,41(12):61-68.
JIN L ,DING B. Brief introduction of PAUT standard[J]. Nondestructive Testing,2019,41(12):61-68.
王丽萍,田勐,李凯,等.超声波检测技术在转向架激光电弧复合焊无坡口焊缝检测中的应用[J].电焊机,2022,52(8):108-112.
WANG L P, TIAN M, LI K, et al. Application of Ultrasonic Testing Technology in Non-groove Weld Detection of Bogie Laser Arc Hybrid Welding[J]. Electric Welding Machine, 2022, 52(8): 108-112.
张子健,吕钟杰,沈正祥,等.承压设备对接焊缝特殊结构相控阵超声CIVA模拟与检测应用[J].电焊机,2022,52(12):43-50.
ZHANG Z J, LV Z J, SHEN Z X, et al. Ultrasonic Phased Array CIVA Simulation and Detection of Special Structure of Butt Weld of Pressure Equipment[J]. Electric Welding Machine, 2022, 52(12): 43-50.
郑阳,郑晖,潘强华,等. 国内外相控阵超声检测标准比较与分析[J]. 无损检测,2016,38(7):56-65.
ZHENG Y,ZHENG H,PAN Q H,et al. Comparison and Analysis of Domestic and Foreign Phased Array Ultrasonic Standards[J]. Nondestructive Testing,2016,38(7):56-65.
刘晓睿,强天鹏,邬冠华,等. 国外的工业相控阵检测标准[J]. 压力容器,2012,29(3):53-58.
LIU X R,QIANG T P, WU G H,et al. Foreign Codes for PAUT in Industry[J]. Pressure Vessel Technology,2012,29(3):53-58.
李衍. 管道环缝相控阵超声探伤技术的应用——国外超声检测动态[J]. 无损检测,2002,24(9):386-390.
LI Y. Application of Phased Array Technology to Inspection of the Girth Welds in Pipelines: Trend of Ultrasonic Testing Abroad[J]. Nondestructive Testing,2002,24(9):386-390.
王雪,薛岩,周广言,等. 管道环焊缝的相控阵超声检测[J]. 无损检测,2020,42(5):75-78.
WANG X,XUE Y,ZHOU G Y,et al. The phased array ultrasonic test of pipeline girth weld[J]. Nondestructive Testing,2020,42(5):75-78.
相关作者
相关机构