Title of article
Buckling topology optimization of laminated multi-material composite shell structures
Author/Authors
Erik Lund، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
10
From page
158
To page
167
Abstract
The design problem of maximizing the buckling load factor of laminated multi-material composite shell structures is investigated using the so-called Discrete Material Optimization (DMO) approach. The design optimization method is based on ideas from multi-phase topology optimization where the material stiffness is computed as a weighted sum of candidate materials, thus making it possible to solve discrete optimization problems using gradient based techniques and mathematical programming. The potential of the DMO method to solve the combinatorial problem of proper choice of material and fiber orientation simultaneously is illustrated for multilayered plate examples and a simplified shell model of a spar cap of a wind turbine blade.
Keywords
Topology optimization , Buckling optimization , Composite structures , Design sensitivity analysis , Discrete Material Optimization
Journal title
COMPOSITE STRUCTURES
Serial Year
2009
Journal title
COMPOSITE STRUCTURES
Record number
1342991
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