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Three-dimensional thermal buckling analysis of functionally graded cylindrical panels using differential quadrature method (DQM)

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Thermal buckling analysis of functionally graded cylindrical panels subjected to various conditions is discussed in this paper. Buckling governing equations are solved using the differential quadrature method. It is assumed that the mechanical properties of the panel are graded through thickness according to a power function of the thickness variable. The panel is assumed to be under the action of three types of thermal loading including uniform temperature rise and variable temperature rise in the axial and radial direction. In the present study, the effects of power law index, panel angle, different thermal load conditions and geometric parameters on the buckling behavior of functionally graded curved panels are studied. The results obtained through the present method are compared to the finite element solutions and the reported results in the literature. A desirable compatibility is concluded.
Rocznik
Strony
135--147
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
  • Babol University of Technology, Department of Mechanical Engineering, Babol, Iran
  • Babol University of Technology, Department of Mechanical Engineering, Babol, Iran
Bibliografia
  • 1. Akbari Alashti R., Ahmadi S.A., 2014, Buckling of imperfect thick cylindrical shells and curved panels with different boundary conditions under external pressure, Journal of Theoretical and Applied Mechanics, 52, 1, 25-36
  • 2. Alibeigloo A., Kani A.M., 2010, 3D free vibration analysis of laminated cylindrical shell integrated piezoelectric layers using differential quadrature method, Applied Mathematical Modeling, 34, 4123-4137
  • 3. Bellman R.E., Casti J., 1971, Differential quadrature and long term integration, Journal of Mathematical Analysis and Applications, 34, 1, 235-238
  • 4. Breivik N.L., 1997, Thermal and mechanical response of curved composite panels, Dissertation submitted to the Faculty of the Virginia Polytechnic Institute and State University in partial fulfillment of the requirements for the degree of doctor of Philosophy in engineering mechanics
  • 5. Chang J.S., Chui W.C., 1991, Thermal buckling analysis of antisymmetric laminated cylindrical shell panels, International Journal of Solids and Structures, 27, 1, 1295-1309
  • 6. Haftchenari H., Darvizeh M., Darvizeh A., Ansari R., Sharma C.B., 2007, Dynamic analysis of composite cylindrical shells using Differential Quadrature Method (DQM), Composite Structures, 78, 292-298
  • 7. Jang S.K., Bert C.W., Striz A.G., 1989, Application of differential quadrature to static analysis of structure components, International Journal for Numerical Methods in Engineering, 28, 261-577
  • 8. Javaheri R., Eslami M.R., 2002a, Thermal buckling of functionally graded plates based on higher order theory, Journal of Thermal Stresses, 25, 603-625
  • 9. Javaheri R., Eslami M.R., 2002b, Thermal buckling of functionally graded plates, AIAA Journal, 40, 1, 162-169
  • 10. Koizumi M., 1993, The concept of FGM, Ceramic Transactions, Functionally Gradient Materials, 34, 3-10
  • 11. Mahayni M.A., 1966, Thermal buckling of shallow shells, International Journal of Solids and Structures, 2, 167-180
  • 12. Mirfakhraei P., and Redekop D., 1998, Buckling of circular cylindrical shells by the differential quadrature method, International Journal of Pressure Vessels and Piping, 75, 347-353
  • 13. Murphy K.D., Ferreira D., 2001, Thermal buckling of rectangular plates, International Journal of Solids and Structures, 38, 22/23, 3979-3994
  • 14. Shahsiah R., Eslami M.R., 2003, Thermal buckling of functionally graded cylindrical shell, Journal of Thermal Stresses, 26, 277-294
  • 15. Shu C., 2000, Differential Quadrature and its Application in Engineering, Springer-Verlag, London, UK
  • 16. Thornton E.A., 1993, Thermal buckling of plates and shells, Applied Mechanics Review, 46, 10, 485-506
  • 17. Wu L.H., 2004, Thermal buckling of a simply supported moderately thick rectangular FGM plate, Composite Structures, 64, 2, 211-218
  • 18. Wu L., Jiang Z., Liu J., 2005, Thermoelastic stability of functionally graded cylindrical shells, Composite Structures, 70, 60-68
  • 19. Zhao X., Liew K.M., 2010, A mesh-free method for analysis of the thermal and mechanical buckling of functionally graded cylindrical shell panels, Computational Mechanics, 45, 297-310
  • 20. Zhao X., Yang Y., Liew K.M., 2007, Geometrically nonlinear analysis of cylindrical shells using the element-free kp-Ritz method, Engineering Analysis with Boundary Elements, 31, 783-792
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniajacą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-22a189a4-e068-413e-b743-df5830956722
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