Multiobjective Genetic Algorithm Optimization of the Composite Laminates as a Satellite Structure Material for Coefficient of Thermal Expansion and Elastic Modulus
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Artem, Hatice Seçil
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Abstract
This study considers multi-objective optimal design of the fiber reinforced symmetric-balanced laminated composites using genetic algorithms. MATLAB Genetic Algorithm and Direct Search Toolbox is used to obtain Pareto-optimal design for three different model problems. The objectives of the problems are to maximize the Young's moduli and minimize the coefficient of thermal expansion (CTE) simultaneously for 8 and 16 layered carbon/epoxy composites. Simplified micromechanics equations and classical lamination theory are used in order to obtain the fitness functions of the problems. Stress and strain distributions are presented through the thickness of the laminates for the optimized problems under mechanical and thermal loadings.
Description
4th International Conference on Recent Advances in Space Technologies 2009, RAST '09; İstanbul; Turkey; 11 June 2009 through 13 June 2009
Keywords
Thermal expansion, Laminated composites, Multi-objective optimization, Thermomechanical loading, Satellite structures, Multi-objective optimization, Thermomechanical loading, Satellite structures, Thermal expansion, Laminated composites
Fields of Science
02 engineering and technology, 0210 nano-technology
Citation
Aydın, L., and Artem, H. S. (2009, June 11-13). Multiobjective genetic algorithm optimization of the composite laminates as a satellite structure material for coefficient of thermal expansion and elastic modulus. Paper presented at the 4th International Conference on Recent Advances in Space Technologies 2009. doi:10.1109/RAST.2009.5158179
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