Compliance–stress constrained mass minimization for topology optimization on anisotropic meshes

Compliance–stress constrained mass minimization for topology optimization on anisotropic meshes

In this paper, we generalize the SIMPATY algorithm, which combines the SIMP method with anisotropic mesh adaptation to solve the minimum compliance problem with a mass constraint. In particular, the mass of the final layout is now minimized and both a maximum compliance and a maximum stress can be e...

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Veröffentlicht in:SN applied sciences 2020-07, Vol.2 (7), p.1196, Article 1196
Hauptverfasser: Ferro, Nicola, Micheletti, Stefano, Perotto, Simona
Format: Artikel
Sprache:eng
Schlagworte:
3-D printers
Adaptation
Algorithms
Anisotropy
Applied and Technical Physics
Chemistry/Food Science
Compliance
Constraints
Design specifications
Earth Sciences
Engineering
Engineering: Adaptive Model
Environment
Industrial design
Layouts
Materials Science
Mathematical models
Mesh and Resolution Techniques for Computationally-Demanding Problems in Simulation-Based Engineering
Methods
Optimization
Research Article
Topology
Topology optimization
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Beschreibung
Zusammenfassung:In this paper, we generalize the SIMPATY algorithm, which combines the SIMP method with anisotropic mesh adaptation to solve the minimum compliance problem with a mass constraint. In particular, the mass of the final layout is now minimized and both a maximum compliance and a maximum stress can be enforced as either mono- or multi-constraints. The new algorithm, named MSC-SIMPATY, is able to sharply detect the material–void interface, thanks to the anisotropic mesh adaptation. The presented test cases deal with three different scenarios, with a focus on the effect of the constraints on the final layouts and on the performance of the algorithm.
ISSN:2523-3963
2523-3971
DOI:10.1007/s42452-020-2947-1