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Journal of Applied Mechanics | Volume 67 | Issue 3 | Discussion
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Discussion: “An Energy Method for Analyzing Magnetoelastic Buckling and Bending of Ferromagnetic Plates in Static Magnetic Fields” (Yang, W., Pan, H., Zheng, D., and Cai, Z., 1999, ASME J. Appl. Mech., 66, pp. 913–917) OPEN ACCESS

[+] Author and Article Information
You-He Zhou

Department of Mechanics, Lanzhou University, Gansu 730000, P. R. China

J. Appl. Mech 67(3), 638 (Sep 01, 2000) (1 page) doi:10.1115/1.1313825 History:
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References

1
Moon,  F. C., and Pao,  Y. H., 1968, “Magnetoelastic Buckling of a Thin Plate,” ASME J. Appl. Mech., 35, pp. 53–58.
2
Zhou,  Y. H., Zheng,  X. J., and Miya,  K., 1995, “Magnetoelastic Bending and Snapping of Ferromagnetic Plates in Oblique Magnetic Fields,” Fusion Eng. Des., 30, pp. 325–337.
3
Zhou,  Y. H., and Zheng,  X. J., 1996, “A Theoretical Model of Magnetoelastic Buckling for Soft Ferromagnetic Thin Plates,” Acta Mech. Sin., 12, pp. 213–224.
4
Miya,  K., Hara,  K., and Someya,  K., 1978, “Experimental and Theoretical Study on Magnetoelastic Buckling of a Ferromagnetic Cantilevered Beam-Plate,” ASME J. Appl. Mech., 45, pp. 355–360.
5
Popelar,  C. H., 1972, “Postbuckling Analysis of a Magnetoelastic Beam,” ASME J. Appl. Mech., 39, pp. 207–211.
6
Popelar,  C. H., and Bast,  C. O., 1972, “An Experimental Study of the Magnetoelastic Postbuckling Behavior of a Beam,” Exp. Mech., 12, pp. 537–542.
7
Pao,  Y. H., and Yeh,  C. S., 1973, “A Linear Theory for Soft Ferromagnetic Elastic Solids,” Int. J. Eng. Sci., 11, No. 4, pp. 415–436.
8
Tagaki,  T., Tani,  J., Matsubara,  Y., and Mogi,  T., 1995, “Dynamic Behavior of Fusion Structural Components Under Strong Magnetic Fields,” Fusion Eng. Des., 27, pp. 481–489.
9
Zhou,  Y. H., and Miya,  K., 1998, “A Theoretical Prediction of Natural Frequency of a Ferromagnetic Beam-Plate With Low Susceptibility in In-Plane Magnetic Field,” ASME J. Appl. Mech., 65, pp. 121–126.
10
Zhou,  Y. H., and Zheng,  X. J., 1997, “A General Expression of Magnetic Force for Soft Ferromagnetic Plates in Complex Magnetic Fields,” Int. J. Eng. Sci., 35, No. 15, pp. 1405–1417.
11
Zhou,  Y. H., and Zheng,  X. J., 1999, “A Generalized Variational Principle and Theoretical Model for Magnetoelastic Interaction of Ferromagnetic Bodies,” Sci. China, Ser. A: Math., Phys., Astron. Technol. Sci., 42, pp. 618–626.

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