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- Title
Optimisation of material composition of functionally graded materials based on multiscale thermoelastic analysis.
- Authors
Chiba, Ryoichi; Sugano, Yoshihiro
- Abstract
This paper presents a method for optimisation of the material composition of functionally graded materials (FGMs) for thermal stress relaxation. This method consists of a multiscale thermoelastic analysis and a genetic algorithm. In the presented method, location-dependent unit cells representing the microstructures of two-phase FGMs are created using morphology description functions, and the homogenised material properties and microscale thermal stresses are computed using the asymptotic expansion homogenisation method. Thermal stress relaxation effects at the microscale in the FGMs are quantitatively evaluated, being reflected for the optimisation computation of the material composition. Numerical calculations are performed for a functionally graded infinite plate subjected to prescribed surface temperatures, and it is demonstrated that the optimisation with the knowledge of specific microstresses in FGMs results in not only a different trend of material composition distribution but also a different critical location for material failure from those obtained by conventional optimisation without the knowledge of the microstresses.
- Subjects
FUNCTIONALLY gradient materials; THERMAL stresses; THERMOELASTIC stress analysis; GENETIC algorithms; NUMERICAL analysis; ASYMPTOTIC homogenization
- Publication
Acta Mechanica, 2012, Vol 223, Issue 5, p891
- ISSN
0001-5970
- Publication type
Article
- DOI
10.1007/s00707-011-0610-z