优化壳体形状的现代软件功能

E. Ermakova, Marina I. Rynkovskaya
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引用次数: 0

摘要

文章主要介绍了在 Comsol Multiphysics 中使用三种基于梯度的方法对壳结构进行形状优化:IPOPT (Interior Point OPTimizer)、SNOPT (Sparse Nonlinear OPTimizer) 和 MMA 或 GCMMA (the Method of Moving Asymptotes)。计算实验采用了两种类型的复杂形状,如右螺旋形和可展开螺旋形。任务是研究两种螺旋形的初始设计和优化过程。为了获得更精确的结果和有趣的设计方案,计算使用了三种物理控制网格尺寸:超粗、超细和超精,并使用了不同值的特殊优化设置,如最大位移(dmax)和过滤半径(Rmin)。根据这三种方法得出的结果,我们可以得出结论:网格元素尺寸以及所研究的参数 dmax 和 Rmin 对最终的优化结果有重大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modern software capabilities for shape optimization of shells
The article is devoted to the shape optimization of shell structures in Comsol Multiphysics using three gradient-based methods: IPOPT (Interior Point OPTimizer), SNOPT (Sparse Nonlinear OPTimizer) and MMA or GCMMA (the Method of Moving Asymptotes). Two types of complex shapes, such as right helicoid and developable helicoid are taken for the computational experiment. The task is to investigate the initial design and optimization process of two helicoids. To obtain a more accurate result and an interesting design solution, the calculation is carried out using three physics-controlled mesh sizes: extra coarse, fine and extra fine with varying values of special optimization settings, such as maximum displacement (dmax) and filter radius (Rmin). The results obtained using the three methods allow to conclude that the mesh element size and studied parameters dmax and Rmin have a significant impact on the final optimization result.
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