Application of MATHEMATICA to the optimal design of composite shells for improved buckling strength
Abstract
The optimal design of a laminated cylindrical shell is obtained with the objectives defined as the maximisation of the axial and torsional buckling loads. The ply angle is taken as the design variable. The symbolic computational software package MATHEMATICA is used in the implementation and solution of the problem. This approach simplifies the computational procedure as well as the implementation of the analysis/optimisation routine. Results are given illustrating the dependence of the optimal fiber angle on the cylinder length and radius. It is shown that a general purpose computer algebra system like MATHEMATICA is well suited to solve small boundary value problems such as structural design optimisation involving composite materials.
Keywords
Citation
Walker, M., Reiss, T., Adali, S. and Weaver, P.M. (1998), "Application of MATHEMATICA to the optimal design of composite shells for improved buckling strength", Engineering Computations, Vol. 15 No. 2, pp. 260-267. https://doi.org/10.1108/02644409810369248
Publisher
:MCB UP Ltd
Copyright © 1998, MCB UP Limited