Title of article
Multi-physics optimization of three-dimensional microvascular polymeric components
Author/Authors
Aragَn، نويسنده , , Alejandro M. and Saksena، نويسنده , , Rajat and Kozola، نويسنده , , Brian D. and Geubelle، نويسنده , , Philippe H. and Christensen، نويسنده , , Kenneth T. and White، نويسنده , , Scott R.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2013
Pages
16
From page
132
To page
147
Abstract
This work discusses the computational design of microvascular polymeric materials, which aim at mimicking the behavior found in some living organisms that contain a vascular system. The optimization of the topology of the embedded three-dimensional microvascular network is carried out by coupling a multi-objective constrained genetic algorithm with a finite-element based physics solver, the latter validated through experiments. The optimization is carried out on multiple conflicting objective functions, namely the void volume fraction left by the network, the energy required to drive the fluid through the network and the maximum temperature when the material is subjected to thermal loads. The methodology presented in this work results in a viable alternative for the multi-physics optimization of these materials for active-cooling applications.
Keywords
Multi-physics optimization , Microvascular materials , Active cooling , Multi-objective genetic algorithms , Thermal management optimization
Journal title
Journal of Computational Physics
Serial Year
2013
Journal title
Journal of Computational Physics
Record number
1484975
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