Isogeometric topology optimization of compliant mechanisms using transformable triangular mesh (TTM) algorithm

拓扑优化 等几何分析 有限元法 拓扑(电路) 算法 计算机科学 数学 优化设计 多边形网格 形状优化 数学优化 离散化
作者
Ding Senmao,Baotong Li,Chen Guimin,Zhi Zhao,Jun Hong
出处
期刊:Structural and Multidisciplinary Optimization [Springer Science+Business Media]
卷期号:64 (4): 2553-2576
标识
DOI:10.1007/s00158-021-03008-9
摘要

This paper presents a unique solution to the problem of planar compliant mechanism design by means of geometric morphing technology and isogeometric analysis (IGA). A new transformable triangular mesh (TTM) component is developed based on geometric morphing technology, which can generate the required topology with different feature sets from a surface that has zero boundary component (interior hole) under the control of Laplace energy and mesh operations. Such flexible TTM component is helpful in overcoming the initial dependency of conventional topology optimization methods in which the layout of parameterized components often affects final optimized results. As the high-order continuity between the grids of IGA can improve calculation accuracy and numerical stability, IGA is combined with the presented TTM algorithm to establish a two-layer computational model so as to identify the optimal compliant mechanism topology within a given design domain and given displacements of input and output ports. In the upper layer of the model, the compliant limbs are characterized explicitly by triangular grids. By moving, splitting, and refining these triangular grids, the generated shape will then be projected onto the lower layer which is discretized using NURBS elements so as to calculate structural sensitivity for driving new iteration. To demonstrate the benefits provided by such method for compliant mechanism design, several numerical studies are tested, in which the geometry freely evolves along the optimization procedure, resulting in more efficient non-trivial topologies with desired kinematic behavior.
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