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Topology optimization based on moving deformable components: A new computational framework

In the present work, a new computational framework for structural topology optimization based on the concept of moving deformable components is proposed. Compared with the traditional pixel or node point-based solution framework, the proposed solution paradigm can incorporate more geometry and mechanical information into topology optimization directly and therefore render the solution process more flexible. It also has the great potential to reduce the computational burden associated with topology optimization substantially. Some representative examples are presented to illustrate the effectiveness of the proposed approach.

preprint2014arXivOpen access
Xu GuoWeisheng ZhangWenliang Zhong
Computational Engineering, Finance, and Sciencephysics.comp-ph
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Open access3 authors2 topics
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Xu GuoWeisheng ZhangWenliang Zhong

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