[1]李虎昌,李靖龙,王海峰,等.海底管线用高频焊管焊缝常见缺陷及超声波检测辨识方法[J].焊管,2021,44(2):57-59, 65.[doi:10.19291/j.cnki.1001-3938.2021.02.013]
 LI Huchang,LI Jinglong,WANG Haifeng,et al.Common Defects of HFW Steel Pipe Welds for Offshore Service Pipeline and Ultrasonic Detection and Identification Method[J].,2021,44(2):57-59, 65.[doi:10.19291/j.cnki.1001-3938.2021.02.013]
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海底管线用高频焊管焊缝常见缺陷及超声波检测辨识方法()
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《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
第44卷
期数:
2021年第2期
页码:
57-59, 65
栏目:
经验交流
出版日期:
2021-02-28

文章信息/Info

Title:
Common Defects of HFW Steel Pipe Welds for Offshore Service Pipeline and Ultrasonic Detection and Identification Method
文章编号:
10.19291/j.cnki.1001-3938.2021.02.013
作者:
李虎昌李靖龙王海峰焦振峰冯清振
海油发展珠海管道工程有限公司,广东 珠海 519000
Author(s):
LI Huchang LI Jinglong WANG Haifeng JIAO Zhenfeng FENG Qingzhen
CNOOC Energy Technology & Service Zhuhai Pipe Engineering Co., Ltd., Zhuhai 519000, Guangdong, China
关键词:
高频焊管超声波检测海底管线焊缝缺陷灵敏度
Keywords:
HFW steel pipe ultrasonic testing offshore service pipeline weld defect sensitivity
分类号:
TP274
DOI:
10.19291/j.cnki.1001-3938.2021.02.013
文献标志码:
B
摘要:
针对海底管线用HFW焊管焊缝裂纹、未熔合、氧化物夹杂等缺陷,从HFW焊管焊缝缺陷类型出发,分析了相关标准对海底管线用HFW焊管焊缝超声波检测的要求和局限性,提出了HFW焊管焊缝超声波检测缺陷定位和辨识的简易方法,并指出超声波检测时应重视低于基准灵敏度的缺陷回波,不能仅局限于API SPEC 5L和DNV-OS-F101标准要求的基准灵敏度;超声波自动检测过程中,扫查灵敏度应提高6 dB,必要时须采用其他方式配合确认。
Abstract:
In view of the defects such as cracks, lack of fusion and oxide inclusions in the weld of HFW welded pipe, the requirements and limitations of the relevant standards for ultrasonic testing of the weld of HFW welded pipe for offshore service pipeline are analyzed on the basis of the weld defects types of HFW welded pipe. A simple method for defect location and identification in ultrasonic testing of HFW welded pipe welds is proposed. It is pointed out that the defect echo which is lower than the reference sensitivity should be paid attention to in ultrasonic testing, and it should not be limited to the reference sensitivity required by API SPEC 5Land DNV-OS-F101. In the process of ultrasonic automatic detection, the scanning sensitivity should be increased by 6 dB, and other methods should be used for confirmation if necessary.

参考文献/References:

[1] 常少文. 焊接钢管超声波自动探伤检测系统的软件设计与应用[J]. 焊管,2011,34(8):22-25,28

[2] 王联国,樊少波,贾鹏军,等. 管线钢管生产制造过程中无损检测标准的应用分析[J]. 无损检测,2019,41(2):56-61.
[3] 张鸿博. 电阻焊钢管焊缝手动超声波检测工艺及方法[J]. 石油机械,2007(11):44-48,57.
[4] 丹红兵. 直缝焊管焊缝超声波检测中误判案例及分析[J]. 焊管,2010,33(11):65-67,71.
[5] 曹雷. 焊管常用探伤方法及技术[J]. 钢管,2012,41(4):72-74.
[6] 冯大奎,田道建. HFW焊管焊接质量主要影响因素分析[J]. 焊管,2012,35(2):30-33.
[7] 聂向晖,杨龙,张鸿博,等. ERW焊管的超声波检测[J].无损检测,2011,33(2):43-47.
[8] 汪超,熊伟,李雅可. 钢管超声波检测时缺陷波形的识别[J]. 无损检测,2011,33(4):75-78.
[9] 于宾,任国庆,路广平,等. N5刻槽在HFW焊管超声波检验中的实际应用分析[J]. 中国科技博览,2011(22):120-121.
[10] 介升旗. 高频焊管常见焊接缺陷分析[J]. 焊管,2003(4):47-51,62.

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备注/Memo

备注/Memo:
收稿日期:2020-11-13
作者简介:李虎昌(1970—),工程师,主要从事HFW焊管工艺质量工作。
更新日期/Last Update: 2021-04-08