[1]苏三庆,马小平,王威,等.有关大地磁场对金属磁记忆信号影响的数值模拟[J].西安建筑科技大学学报(自然科学版),2019,51(04):463-470.[doi:10.15986/j.1006-7930.2019.04.001]
 SU Sanqing,MA Xiaoping,WANG Wei,et al.Numerical simulation about the influence of geomagnetic field on metal magnetic memory signals[J].J. Xi’an Univ. of Arch. & Tech.(Natural Science Edition),2019,51(04):463-470.[doi:10.15986/j.1006-7930.2019.04.001]
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有关大地磁场对金属磁记忆信号影响的数值模拟()
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西安建筑科技大学学报(自然科学版)[ISSN:1006-7930/CN:61-1295/TU]

卷:
51
期数:
2019年04期
页码:
463-470
栏目:
出版日期:
2019-08-30

文章信息/Info

Title:
Numerical simulation about the influence of geomagnetic field on metal magnetic memory signals
文章编号:
1006-7930(2019)04-0463-08
作者:
苏三庆马小平王威杨熠奕
(西安建筑科技大学 土木工程学院,陕西 西安 710055)
Author(s):
SU Sanqing MA Xiaoping WANG Wei YANG Yiyi
(School of Civil Engineering, Xian Univ.of Arch.& Tech.,Xian 710055, China)
关键词:
金属磁记忆检测大地磁场法向磁信号切向磁信号力磁耦合
Keywords:
metal magnetic memory testing (MMMT) geomagnetic field normal magnetic signals tangential magnetic signals magneto-mechanical coupling
分类号:
TU 391
DOI:
10.15986/j.1006-7930.2019.04.001
文献标志码:
A
摘要:
利用ANSYS有限元模拟软件,结合力磁耦合关系,分别模拟三种放置方式下,试件沿轴转动时初始状态和屈服后的法向和切向磁信号.对比得出以下结论:首先,当地磁场与试件加载方向不平行或与检测面出现夹角时,法向磁信号相比切向磁信号更为准确.地磁场方向对屈服后试件的影响要比初始状态大,尤其在缺陷附近应力集中区域.其次,当试件不是正南正北放置,而是东西放置或者与地磁场存在一定夹角时,按原来方向的法向和切向信号判断试件应力集中将不再准确,因此找到此时磁场方向下试件表面的法向和切向磁信号是做出准确检测的前提条件.另外,当大地磁场完全垂直于试件表面时,无论切向还是法向磁信号都基本为一直线,只有在缺陷处有些许变化,原来过零点和极大值的现象都不再出现.所以在实际工程中,要尽可能避免试件检测面与大地磁场完全垂直,否则以法向信号过零点和切向信号极大值为依据的经验判断方法将不再适用
Abstract:
The normal and tangential magnetic signals of the specimen at initial state and yield state have been simulated by using ANSYS finite element simulation software, combining with the relationship of magneto-mechanical coupling when placed at three ways as well as rotating along the axis. The conclusions are as follows by comparison. Firstly, when the geomagnetic field hasnt paralleled with the loading direction of specimen or has included angles with inspection face, normal magnetic signals are more accurate compared with tangential magnetic signals. The influence of geomagnetic field direction on specimen at yield state is bigger than that at initial state, especially at the stress concentration zone of defects. Secondly, when the specimen isnt placed in a south-north direction, whereas in a east-west direction it has included angles with the geomagnetic field, the normal and tangential magnetic signals of original direction cannot be used to judge the stress concentration of specimen accurately, so the precondition of accurate testing is finding the normal and tangential magnetic signals of the specimen at this direction of magnetic field.Finally, when the geomagnetic field is absolutely perpendicular to the surface of specimen, whether the normal or tangential magnetic signal is basically a line, or it only changes in defects, so the original phenomenon like zero crossing point(ZCP) and maximum value dont appear. Therefore, it should be avoided that the testing face of specimen is absolutely perpendicular to geomagnetic field in practical engineering, otherwise the experience judgment way based on ZCP of normal magnetic signal and maximum value of tangential magnetic signal cannot be used

参考文献/References:

[1]DOUBOV A A. A study of metal properties using the method of magnetic memory[J]. Metal Science and Heat Treatment, 1997, 39(9/10): 401-402.

[2]DOUBOV A A. Screening of weld quality using the magnetic metal memory effect[J]. Welding in The World, 1998, 41: 196-198.

[3]DOUBOV A A. Development of a metal magnetic memory method[J]. Chemical and Petroleum Engineering, 2002, 47(11/12): 837-839.

[4]IVANOV P A, ZHANG V, YEOH C H, et al. Magnetic flux leakage modeling for mechanical damage in transmission pipelines[J]. IEEE Transactions on Magnetics, 1998, 34(5): 3020-3023.

[5]任吉林, 舒铭航, 伍家驹, 等. 18CrNi4A钢力磁效应的ANSYS模拟[J]. 材料工程, 2001(11): 40-44.

REN Jilin, SHU Minghang, WU Jiaju, et al. Simulation of stress-magnetization effect on 18CrNi4A steel by ANSYS[J]. Materials Engineering, 2001(11): 40-44.

[6]姚凯, 王正道, 邓博, 等. 金属磁记忆技术的数值研究[J]. 工程力学, 2011, 28(9): 218-222.

YAO Kai, WANG Zhengdao, DENG Bo, et al. Numerical study on metal magnetic memory technique[J]. Engineering Mechanics, 2011, 28(9): 218-222.

[7]YAO Kai, DENG Bo, WANG Zhengdao. Numerical studies to signal characteristics with the metal magnetic memory-effect in plastically deformed samples[J]. NDT&E International, 2012, 47: 7-17.

[8]YAO Kai, SHEN Kai, WANG Zhengdao,et al. Three-dimensional finite element analysis of residual magnetic field for ferromagnets under early damage [J]. Journal of Magnetism and Magnetic Materials, 2014, 354: 112-118.

[9]REN Shangkun, FU Renzheng, LI Xinlei, et al. Influence of environmental magnetic field on stress-magnetism effect for 20 steel ferromagnetic specimen[J]. Insight-Non-Destructive Testing and Condition Monitoring, 2009, 51(12): 672-675.

[10]高庆敏, 丁红胜, 刘波. 金属磁记忆信号的有限元模拟与影响因素[J]. 无损检测, 2015, 37(6): 86-91.

GAO Qingmin, DING Hongsheng, LIU Bo. The finite element simulation and influence factors of metal magnetic memory signals[J]. Nondestructive Testing, 2015, 37(6): 86-91.

[11]苏三庆, 高波, 王威, 等. 建筑钢板件力磁效应的ANSYS有限元模拟研究[J]. 西安建筑科技大学学报(自然科学版), 2016, 48(6): 771-775.

SU Sanqing,GAO Bo, WANG Wei, et al. Research on ANSYS finite element simulation of stress-magnetization effect on tensile steel plate [J]. J. of Xi′an Univ. of Arch. & Tech. (Natural Science Edition), 2016, 48(6): 771-775.

[12]徐滨士, 董丽红. 再制造质量控制中的金属磁记忆检测技术[M]. 北京: 国防工业出版社, 2015: 3-4.

XU Bingshi, DONG Lihong. Metal magnetic memory testing method in remanufacturing quality control[M]. Beijing: Nation Defense Industry Press, 2015: 3-4.

[13]苏三庆, 马小平, 王威, 等. 基于ANSYS有限元模拟的钢丝绳单丝拉伸力磁耦合研究[J]. 西安建筑科技大学学报(自然科学版), 2017, 49(3): 309-316, 331.

SU Sanqing, MA Xiaoping, WANG Wei, et al. Research on magneto-machanical coupling on tensile monofilament steel wire rope based on ANSYS finite element simulation [J].J. of Xi′an Univ. of Arch. & Tech. (Natural Science Edition), 2017, 49(3): 309-316, 331.

[14]任吉林, 林俊明. 电磁无损检测[M]. 北京: 科学出版社, 2008: 377-378.

REN Jilin, LIN Junming. Electromagnetic nondestructive testing[M]. Beijing: Science Press, 2008: 377-378.

[15]IORDACHE V E, HUG E, BUIRON N. Magneticbehavior versus tensile deformation mechanisms in a non-oriented Fe-(3wt .%)Si steel [J]. Materials Science and Engineering, 2003, A359: 62-74.

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备注/Memo

备注/Memo:
收稿日期:2018-05-03
修改稿日期:2019-06-10
基金项目:国家自然科学基金项目(51878548,51578449);陕西省自然科学基础研究计划重点基金(2018JZ5013);陕西省教育厅省级重点实验室科研计划项目(14JS044)
第一作者:苏三庆(1961-),男,教授,博士生导师,主要从事结构健康检测及混凝土等方面的研究.E-mail:sussq@xauat.edu.cn
更新日期/Last Update: 2019-09-17