Abstract

The objective of this work is to compare two topology optimization strategies, i.e. density-based (diffuse) and level-set-based (sharp), in thermal problems involving a heat conductor and an insulation material. The fundamental difference between the two methods lies in the representation of the materials’ interface: the density method allows for transitional regions whereas the level set one does not. Several regularization techniques, such as perimeter restriction, parameter ramping, level set gradient restriction and parametrization, are explored in order to enhance each method’s robustness and to decrease its sensitivity to initial conditions. It is shown that, in the two test problems investigated, the diffuse method was in general more robust than the sharp one. However, when combined with appropriate regularization techniques, the level set method lead to material distributions which were more optimal.

Volume Subject Area:
Heat Transfer and Thermal Engineering
Topics:
Optimization, Topology, Density, Heat, Insulation, Parametrization, Robustness
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Copyright © 2021 by National Research Council of Canada. This work was prepared while under employment by the government of a non-US government agency as part of the official duties and as such Copyright is owned by that government, which reserves its own Copyright under national law.
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