Three-axis magnetic flux leakage in-line inspection simulation based on finite-element analysis

doi:10.1088/1674-1056/22/1/018103

Chin. Phys. B ›› 2013, Vol. 22 ›› Issue (1): 18103-018103.doi: 10.1088/1674-1056/22/1/018103

• INTERDISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY • 上一篇下一篇

Three-axis magnetic flux leakage in-line inspection simulation based on finite-element analysis

冯健, 张峻峰, 卢森骧, 王宏阳, 马瑞泽

School of Information Science & Engineering, Northeastern University, Shenyang 110819, China

收稿日期:2012-05-25 修回日期:2012-07-19 出版日期:2012-12-01 发布日期:2012-12-01
基金资助:
Project supported by the National Natural Science Foundation of China (Grant Nos. 61273164 and 61034005), the National High Technology Research and Development Program of China (Grant No. 2012AA040104), and the Fundamental Research Funds for the Central Universities, China (Grant No. N100104102).

Three-axis magnetic flux leakage in-line inspection simulation based on finite-element analysis

Feng Jian (冯健), Zhang Jun-Feng (张峻峰), Lu Sen-Xiang (卢森骧), Wang Hong-Yang (王宏阳), Ma Rui-Ze (马瑞泽)

School of Information Science & Engineering, Northeastern University, Shenyang 110819, China

Received:2012-05-25 Revised:2012-07-19 Online:2012-12-01 Published:2012-12-01
Contact: Feng Jian E-mail:fjneu@163.com
Supported by:
Project supported by the National Natural Science Foundation of China (Grant Nos. 61273164 and 61034005), the National High Technology Research and Development Program of China (Grant No. 2012AA040104), and the Fundamental Research Funds for the Central Universities, China (Grant No. N100104102).

摘要/Abstract

摘要： With the increasing of pipelines, the corrosion leakage accidents happen frequently. Therefore, nondestructive testing technology is important for ensuring the safe operation of the pipelines and energy mining. In this paper, the structure and principle of magnetic flux leakage (MFL) in-line inspection system is introduced firstly. Besides, a mathematic model of the system according to ampere circuit rule, flux continuity theorem, and column coordinate transform is built. And the magnetic flux density in every point of space is calculated based on the theory of finite element analysis. Then we analyze and designe the disposition of measurement section probes and sensors combining both three-axis MFL in-line inspection and multi-sensor fusion technology. Its advantage is that the three-axis changes of magnetic flux leakage field are measured by the multi-probes at the same time. So we can determine various defects accurately. Finally, the theory of finite element analysis is used to build a finite element simulation model, and the relationship between defects and MFL inspection signals is studied. Simulation and experiment results verify that the method not only enhance the detection ability to different types of defects but also improve the precision and reliability of the inspection system.

关键词: magnetic flux leakage in-line inspection, multi-sensor data fusion, sensor disposition, finite element analysis

Abstract: With the increasing of pipelines, the corrosion leakage accidents happen frequently. Therefore, nondestructive testing technology is important for ensuring the safe operation of the pipelines and energy mining. In this paper, the structure and principle of magnetic flux leakage (MFL) in-line inspection system is introduced firstly. Besides, a mathematic model of the system according to ampere circuit rule, flux continuity theorem, and column coordinate transform is built. And the magnetic flux density in every point of space is calculated based on the theory of finite element analysis. Then we analyze and designe the disposition of measurement section probes and sensors combining both three-axis MFL in-line inspection and multi-sensor fusion technology. Its advantage is that the three-axis changes of magnetic flux leakage field are measured by the multi-probes at the same time. So we can determine various defects accurately. Finally, the theory of finite element analysis is used to build a finite element simulation model, and the relationship between defects and MFL inspection signals is studied. Simulation and experiment results verify that the method not only enhance the detection ability to different types of defects but also improve the precision and reliability of the inspection system.

Key words: magnetic flux leakage in-line inspection, multi-sensor data fusion, sensor disposition, finite element analysis

中图分类号: (Nondestructive testing: electromagnetic testing, eddy-current testing)

81.70.Ex

冯健, 张峻峰, 卢森骧, 王宏阳, 马瑞泽. Three-axis magnetic flux leakage in-line inspection simulation based on finite-element analysis[J]. Chin. Phys. B, 2013, 22(1): 18103-018103.

Feng Jian (冯健), Zhang Jun-Feng (张峻峰), Lu Sen-Xiang (卢森骧), Wang Hong-Yang (王宏阳), Ma Rui-Ze (马瑞泽). Three-axis magnetic flux leakage in-line inspection simulation based on finite-element analysis[J]. Chin. Phys. B, 2013, 22(1): 18103-018103.

参考文献 16

[1]	Silva C E R, Alvarenga A V and Costa-Felix R P B 2010 Advanced Metrology for Ultrasound in Medicine, May 12-14, Teddington, UK, 279 012025
[2]	Mandal K, Dufour D, Krause T W and Atherton D L 1997 J. Phys. D: Appl. Phys. 30 962
[3]	Ryu K S, Atherton D L and Clapham L 2002 J. Phys. D: Appl. Phys. 35 2693
[4]	Leonard S and Atherton D L 1996 IEEE Trans. Magn. 32 1905
[5]	Cés M, Clorennec D, Royer D and Prada C 2010 Proceedings of the 6th Groupe De Recherche and 9th Anglo-French Physical Acoustics Joint Conference, January 18-22, Kendal, UK, p. 012017
[6]	Mandache C and Clapham L 2003 J. Phys. D: Appl. Phys. 36 2427
[7]	Bajoni D 2012 J. Phys. D: Appl. Phys. 45 313001
[8]	Goode P R, Abramenko V and Yurchyshyn V 2012 Phys. Scr. 86 018402
[9]	Cheng G W, Zhou Z L, Men Q Y and Deng C N Proceedings of 2006 International Symposium on Instrumentation Science And Technology, August 8-12, Harbin, China, p. 1289
[10]	Zhang H G, Liu J H, Ma D Z and Wang Z S 2011 IEEE Trans. Neur. Netw. 22 2339
[11]	Tasinkevych M, Silvestre N M and Telo da Gama M M 2012 New J. Phys. 14 073030
[12]	Wang L M, Luo Y and Ma B K 2002 Chin. Phys. 11 150
[13]	Dutta S M, Ghorbel F H and Stanley R K 2009 IEEE Trans. Mag. 45 1966
[14]	Hari K C, Nabi M and Kulkarni S V 2007 IET Sci. Meas. Tech. 1 196
[15]	Khodayari-Rostamabad A, Reilly J P, Nikolova N K, Hare J R and Pasha S 2009 IEEE Trans. Magn. 45 3073
[16]	Gotoh Y and Takahashi N 2002 IEEE Trans. Magn. 38 1209

Three-axis magnetic flux leakage in-line inspection simulation based on finite-element analysis

Three-axis magnetic flux leakage in-line inspection simulation based on finite-element analysis

PDF (PC)

赞

可视化

摘要/Abstract

引用本文

使用本文

参考文献 16

相关文章 5

Metrics

本文评价

推荐阅读 0

[1]	Si-Yuan Hao(郝思源), Xiao-Ping Lou(娄小平), Jing Zhu(祝静), Guang-Wei Chen(陈广伟), and Hui-Yu Li(李慧宇). Magnetic shielding property for cylinder with circular, square, and equilateral triangle holes[J]. 中国物理B, 2021, 30(6): 60702-060702.
[2]	张薇, 陈鲁倬, 张健敏, 黄志高. Design and optimization of carbon nanotube/polymer actuator by using finite element analysis[J]. 中国物理B, 2017, 26(4): 48801-048801.
[3]	何斌, 张成红, 丁安. Finite element analysis of ionic liquid gel soft actuator[J]. 中国物理B, 2017, 26(12): 126102-126102.
[4]	徐艺琳, 徐信业. Analysis of the blackbody-radiation shift in an ytterbium optical lattice clock[J]. 中国物理B, 2016, 25(10): 103202-103202.
[5]	石莎莉, 陈大鹏, 欧毅, 景玉鹏, 徐秋霞, 叶甜春. A novel anti-shock silicon etching apparatus for solving diaphragm release problems[J]. 中国物理B, 2010, 19(6): 60701-060701.