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The present paper concentrates at studying the analysis of wave motion in a homogenous isotropic micropolar plate possessing cubic symmetry. The upper and lower surfaces of the plate are subjected to stress free conditions. The frequency equations for symmetric and skewsymmetric wave modes of propagation are derived. The amplitudes of displacement components and microrotation are also computed and presented graphically during the symmetric and skewsymmetric motion of the plate. Finally, in order to illustrate and verify the analytical developments, numerical solution of frequency equation corresponding to stress free micropolar cubic crystal plate is carried out for magnesium crystal material and represented graphically. The results of phase velocity, displacements and microrotation have been compared for micropolar cubic crystal plate and micropolar elastic plate and illustrated graphically.
Rocznik
Tom
Strony
403--414
Opis fizyczny
Bibliogr. 10 poz., wykr.
Twórcy
autor
autor
- Department of Mathematics Kurukshetra University Kurukshetra, Haryana, INDIA-136 119, rajneesh_kuk @ rediffmail.com
Bibliografia
- Chung D.H. and Buessem W.R. (1967): The elastic anisotropy of crystals. - J. Appl. Phys., vol.38, pp.2010-2012.
- Eringen A.C. (1968a): In Mechanics of Generalized Continua. - ed. E. Kroner (Heidelberg: Springer-Verlag,), p.18.
- Eringen A.C. (1968b): Theory of Micropolar Elasticity, Fracture. ed. H.Leowitz (New York: Academic Press), p.621.
- Kumar R. and Ailawalia P. (2005a): Elastodynamics of inclined loads in a micropolar cubic crystals. - Mechanics and Mechanical Engineering, vol.9, pp.57-75.
- Kumar R. and Ailawalia P. (2005b): Behavior of micropolar cubic crystal due to various sources. - Journal of Sound and Vibration, vol.283, pp.875-890.
- Kumar R. and Ailawalia P. (2005c): Deformation in micropolar cubic crystal due to various sources. - International Journal of Solid and Structures, vol.42, pp.5931-5944.
- Kumar R. and Ailawalia P. (2006): Interaction due to mechanical sources in micropolar cubic crystals. - International Journal of Applied Mechanics and Engineering, vol.11, pp.337-357.
- Kumar R. and Ailawalia P. (2007): Steady state response due to moving load at the free surface of micropolar cubic crystal. - International Journal of Applied Mechanics and Engineering, vol.12, pp.401-411.
- Lie K.-H.C. and Koehler J.S. (1968): The elastic stress field produced by a point force in a cubic crystal. - Adv. Phys., vol.17, pp.421-478.
- Minagawa S., Arakawa K. and Yamada M. (1981): Dispersion curves for waves in a cubic micropolar medium with reference to estimations of the material constants for diamond. - Bull. JSME., vol.24, pp.22-28.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BPZ2-0041-0007