Reformulation for stress topology optimization of continuum structures by floating projection

Stress topology optimization of continuum structures is an important topic for structural design and has been widely investigated. However, stress topology optimization itself is ill-conditioned and the resulting optimized designs highly depend on the used parameters, mesh size, and so on. In this p...

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Bibliographic Details
Published in:Computer methods in applied mechanics and engineering 2024-04, Vol.423, p.116870, Article 116870
Main Authors: Huang, Xiaodong, Li, Weibai, Nabaki, Khodamorad, Yan, Xiaolei
Format: Article
Language:English
Subjects:
Floating projection
Stress concentration
Stress constraint
Stress minimization
Topology optimization
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Summary:Stress topology optimization of continuum structures is an important topic for structural design and has been widely investigated. However, stress topology optimization itself is ill-conditioned and the resulting optimized designs highly depend on the used parameters, mesh size, and so on. In this paper, stress minimization and stress-constrained topology optimization problems are reformulated by introducing a global measure of an optimized design, the average solid stress. The floating projection topology optimization method is established with ε-relaxation and the p-norm function. Due to the modified problem formulations, the optimized design becomes insensitive to the selection of p in the p-norm function once p is large enough, such as p=16, to ensure the total elimination of stress concentration. Numerical results show the uniform stress distribution of optimized designs, demonstrating the effectiveness of the proposed method. Some findings on the elimination of stress concentration, mesh-independent optimized topology, equivalent smooth design, and impractical design are presented and discussed.
ISSN:0045-7825
DOI:10.1016/j.cma.2024.116870