Analytic three-dimensional thermoelasticity solutions are presented for the thermal buckling of muitilayered angle-ply composite plates with temperature-dependent thermoelastic properties. Both the critical temperatures and the sensitivity derivatives are computed. The sensitivity derivatives measure the sensitivity of the buckling response to variations in the different lamination and material parameters of the plate. The plates are assumed to have rectangular geometry and an antisymmetric lamination with respect to the middle plane. The temperature is assumed to be independent of the surface coordinates, but has an arbitrary symmetric variation through the thickness of the plate. The prebuckling deformations are accounted for. Numerical results are presented, for plates subjected to uniform temperature increase, showing the effects of temperature-dependent material properties on the prebuckling stresses, critical temperatures, and their sensitivity derivatives.
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December 1992
Research Papers
Three-Dimensional Solutions for the Thermal Buckling and Sensitivity Derivatives of Temperature-Sensitive Multilayered Angle-Ply Plates
A. K. Noor,
A. K. Noor
Center for Computational Structures Technology, University of Virginia, Hampton, VA 23681
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W. Scott Burton
W. Scott Burton
Center for Computational Structures Technology, University of Virginia, Hampton, VA 23681
Search for other works by this author on:
A. K. Noor
Center for Computational Structures Technology, University of Virginia, Hampton, VA 23681
W. Scott Burton
Center for Computational Structures Technology, University of Virginia, Hampton, VA 23681
J. Appl. Mech. Dec 1992, 59(4): 848-856 (9 pages)
Published Online: December 1, 1992
Article history
Received:
October 29, 1991
Revised:
January 9, 1992
Online:
March 31, 2008
Citation
Noor, A. K., and Burton, W. S. (December 1, 1992). "Three-Dimensional Solutions for the Thermal Buckling and Sensitivity Derivatives of Temperature-Sensitive Multilayered Angle-Ply Plates." ASME. J. Appl. Mech. December 1992; 59(4): 848–856. https://doi.org/10.1115/1.2894052
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