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Measurement of initial magnetization curve based on constant magnetic field excited by permanent magnet

Deng Dong-Ge Wu Xin-Jun Zuo Su

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Measurement of initial magnetization curve based on constant magnetic field excited by permanent magnet

Deng Dong-Ge, Wu Xin-Jun, Zuo Su
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  • The initial magnetization curve is closely related to the stress in ferromagnetic material, thus it could be used to evaluate the stress in ferromagnetic member online. However, the initial magnetization curve measurement system recommended by the technical standard IEC 60404-4 is not suitable for online application. It is inevitable to use excitation coils to generate the excitation field and induction coils to obtain the magnetic flux density, however winding coils closely and uniformly online is not easy to operate. To obtain the initial magnetization curve easily, a calculation method for initial magnetization curve under constant magnetization based on time-space transformation is put forward in this paper. The theoretical correctness of this method is validated through simulation with the constant current coil magnetization. Considering the fact that the constant magnetic field could also be provided by permanent magnets and that magnetizing ferromagnetic members online by permanent magnets are convenient to achieve, in this paper, we put forward the measuring principle of initial magnetization curve based on a constant magnetic field excited by permanent magnets further and set up the corresponding measurement system. This system employs permanent magnetizers as the excitation magnetic source, and adopts symmetric magnetization methods to produce a constant magnetic field on a cylindrical rod-shaped member. The excited constant magnetic field changes along the axial position of the member. Under this exciting field, the axial and radial magnetic flux densities at different lift-offs from the surface of the member are measured by a testing probe including Hall chip array. Then, the axial and radial magnetic flux densities at the interface between the member and air are calculated based on the extrapolation method through utilizing polynomial function fitting and the Gauss's law for magnetism. Furthermore, the axial magnetic field strength within the member is calculated from the axial magnetic flux density at the interface according to the continuity of the tangential magnetic field strength. On the other hand, the induced magnetic flux density within the member is calculated from the radial magnetic flux density at the interface on the basis of the Gauss' law for magnetism, the basic equation of magnetization curve in Rayleigh region and the law of approach to saturation. Finally, the initial magnetization curve could be measured. System measurement results show that with no excitation coils nor induction coils, the initial magnetization curve of the cylindrical rod-shaped member can be easily obtained from the axial and radial magnetic flux densities at the interface of the member under the constant magnetic field excited by permanent magnetizers. The measurement error is less than 10%, and the standard deviation of the error is less than 0.01, which shows that the measurement repeatability is good. Therefore, this proposed system could provide a new approach to measuring the initial magnetization curve of cylindrical rod-shaped members online conveniently.
      Corresponding author: Wu Xin-Jun, xinjunwu@mail.hust.edu.cn
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No. 51477059).
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    [2]

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    [3]

    Tang D D, Huang S L, Chen W M, Zhang J 2006 J. Sci. Instrum. 27 1695 (in Chinese) [唐德东, 黄尚廉, 陈伟民, 张洁 2006 仪器仪表学报 27 1695]

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    Liu J, Wilson J, Strangwood M, Davis C L, Peyton A, Parker J 2015 Int. J. Pres. Vess. Pip. 132-133 65

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    [8]

    Huang D Y 2012 Ph. D. Dissertation (Jilin: Jilin University) (in Chinese) [黄东岩 2012 博士学位论文 (吉林: 吉林大学)]

    [9]

    Tang D D, Huang S L, Chen W M, Jiang J S 2008 Smart Mater. Struct. 17 025019

    [10]

    Huang D Y, Han B, Zhang T 2014 J. Magn. Mater. Devices 45 55 (in Chinese) [黄东岩, 韩冰, 张涛 2014 磁性材料及器件 45 55]

    [11]

    Stupakov O, Wood R, Melikhov Y, Jiles D 2010 IEEE Tran. Magn. 46 298

    [12]

    Deng D G, Wu X J 2015 Acta Phys. Sin. 64 237503 (in Chinese) [邓东阁, 武新军 2015 64 237503]

    [13]

    He Y Z 2013 Acta Phys. Sin. 62 084105 (in Chinese) [何永周 2013 62 084105]

    [14]

    Xu J, Cheng C, Wu X J, Shen G T 2012 J. Huazhong Univ. Sci. Tech. 40 12 (in Chinese) [徐江, 程丞, 武新军, 沈功田 2012 华中科技大学学报 40 12]

    [15]

    Garshelis I J, Tollens S P L, Kari R J, Vandenbossche L P, Dupr L R. 2006 J. Appl. Phys. 99 08D910

    [16]

    Ben A R 2012 M. S. Thesis (Wuhan: Huazhong University of Science and Technology) (in Chinese) [贲安然 2012 硕士学位论文 (武汉: 华中科技大学)]

    [17]

    Hu L, Zou J, Fu X, Yang Y H, Ruan X D, Wang C Y 2009 Meas. Sci. Technol. 20 015103

    [18]

    Perevertov O 2005 Rev. Sci. Instrum. 76 104701

    [19]

    Yuan J M 2012 Ph. D. Dissertation (Wuhan: Huazhong University of Science and Technology) (in Chinese) [袁建明 2012 博士学位论文(武汉: 华中科技大学)]

  • [1]

    Bozorth R M 1993 Ferromagnetism (Piscataway: IEEE Press) p602

    [2]

    Lloyd G M, Singh V, Wang M L, Hovorka O 2003 IEEE Sens. J. 3 708

    [3]

    Tang D D, Huang S L, Chen W M, Zhang J 2006 J. Sci. Instrum. 27 1695 (in Chinese) [唐德东, 黄尚廉, 陈伟民, 张洁 2006 仪器仪表学报 27 1695]

    [4]

    Stupakov O, Tom I, Kadlecov J 2006 J. Phys. D: Appl. Phys. 39 248

    [5]

    Karimian N, Wilson J W, Peyton A J, Yin W, Liu J, Davis C L 2014 J. Magn. Magn. Mater. 352 81

    [6]

    Liu J, Wilson J, Strangwood M, Davis C L, Peyton A, Parker J 2015 Int. J. Pres. Vess. Pip. 132-133 65

    [7]

    Sumitro S, Kurokawa S, Shimano K, Wang M L 2005 Smart Mater. Struct. 14 S68

    [8]

    Huang D Y 2012 Ph. D. Dissertation (Jilin: Jilin University) (in Chinese) [黄东岩 2012 博士学位论文 (吉林: 吉林大学)]

    [9]

    Tang D D, Huang S L, Chen W M, Jiang J S 2008 Smart Mater. Struct. 17 025019

    [10]

    Huang D Y, Han B, Zhang T 2014 J. Magn. Mater. Devices 45 55 (in Chinese) [黄东岩, 韩冰, 张涛 2014 磁性材料及器件 45 55]

    [11]

    Stupakov O, Wood R, Melikhov Y, Jiles D 2010 IEEE Tran. Magn. 46 298

    [12]

    Deng D G, Wu X J 2015 Acta Phys. Sin. 64 237503 (in Chinese) [邓东阁, 武新军 2015 64 237503]

    [13]

    He Y Z 2013 Acta Phys. Sin. 62 084105 (in Chinese) [何永周 2013 62 084105]

    [14]

    Xu J, Cheng C, Wu X J, Shen G T 2012 J. Huazhong Univ. Sci. Tech. 40 12 (in Chinese) [徐江, 程丞, 武新军, 沈功田 2012 华中科技大学学报 40 12]

    [15]

    Garshelis I J, Tollens S P L, Kari R J, Vandenbossche L P, Dupr L R. 2006 J. Appl. Phys. 99 08D910

    [16]

    Ben A R 2012 M. S. Thesis (Wuhan: Huazhong University of Science and Technology) (in Chinese) [贲安然 2012 硕士学位论文 (武汉: 华中科技大学)]

    [17]

    Hu L, Zou J, Fu X, Yang Y H, Ruan X D, Wang C Y 2009 Meas. Sci. Technol. 20 015103

    [18]

    Perevertov O 2005 Rev. Sci. Instrum. 76 104701

    [19]

    Yuan J M 2012 Ph. D. Dissertation (Wuhan: Huazhong University of Science and Technology) (in Chinese) [袁建明 2012 博士学位论文(武汉: 华中科技大学)]

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Publishing process
  • Received Date:  31 January 2016
  • Accepted Date:  01 April 2016
  • Published Online:  05 July 2016

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