A study is made of the effect of lamination and material parameters of thermally stressed multilayer composite panels on the strain energy and its sensitivity coefficients obtained by the three-dimensional thermoelasticity model. The sensitivity coefficients measure the sensitivity of the strain energy to variations in the different lamination and material parameters of the panel. The strain energy and sensitivity coefficients obtained by the three-dimensional model are used as the basis for assessing the accuracy of the corresponding quantities obtained by two-dimensional first-order shear deformation theory. Numerical results are presented for antisymmetrically laminated angle-ply panels subjected to linear temperature variation through the thickness. The numerical results demonstrate the accuracy of the strain energy and its sensitivity coefficients obtained by the first-order shear deformation theory, for the range of parameters considered, and the importance of the particular terms in the strain energy, which vanish for single-layer panels.
Strain energy of thermally stressed multilayer panels and its sensitivity coefficients
AIAA Journal ; 31 , 10
1993-10-01
Miscellaneous
No indication
English
Strain Energy of Thermally Stressed Multilayer Panels and Its Sensitivity Coefficients
Online Contents | 1993
|Design of Thermally Stressed Panels Subject to Transonic Flutter Constraints
Online Contents | 2017
|