基于域分解的大规模光滑塑性拓扑优化

IF 1 4区 工程技术 Q4 MECHANICS Comptes Rendus Mecanique Pub Date : 2021-06-07 DOI:10.5802/CRMECA.88
M. Fourati, Z. Kammoun, J. Néji, H. Smaoui
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引用次数: 0

摘要

针对塑性连续体的光滑拓扑优化问题,提出了一种基于设计域重叠分区的区域分解方法。该过程能够解决超出可用计算和存储容量的问题。它利用了光滑拓扑设计问题的综合极限分析和设计公式的优点。这种综合方法保留了极限分析的静态下界问题的数学结构和性质。特别地,该公式的特点是子问题之间的弱耦合,因为它不涉及应力-应变关系。分解策略首先通过使用粗糙的有限元网格解决简化的设计问题,然后使用精细离散化进行迭代过程。在每次迭代中,每个子域关联一个独立的拓扑优化子问题,将其视为子结构。作用于子域边界的牵引向量在每次迭代中随着重叠分区的切换而更新。数值试验表明,早在第一次迭代中,分解过程就产生了一个可行的、接近最优的设计,其权重比直接解高出小于0.1%。
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Large-scale smooth plastic topology optimization using domain decomposition
A domain decomposition procedure based on overlapping partitions of the design domain is proposed for solving large problems of smooth topology optimization of plastic continua. The procedure enables the solution of problems with sizes exceeding the available computational and storage capacities. It takes advantage of the favorable features of the integrated limit analysis and design formulation of the smooth topology design problem. The integrated approach preserves the mathematical structure and properties of the underlying static, lower bound problem of limit analysis. In particular, the formulation is characterized by weak coupling between subproblems because it does not involve a stress–strain relationship. The decomposition strategy begins by solving a reduced design problem, using a coarse finite element mesh, followed by an iterative process using a fine discretization. At each iteration, an independent topology optimization subproblem is associated with each subdomain, considered as a substructure. The traction vectors acting on the subdomain boundaries are updated at each iteration as the overlapping partitions are switched. The numerical tests showed that as early as the first iteration, the decomposition process generates a feasible, near optimal design with a weight less than 0.1% above the direct solution.
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来源期刊
Comptes Rendus Mecanique
Comptes Rendus Mecanique 物理-力学
CiteScore
1.40
自引率
0.00%
发文量
0
审稿时长
12 months
期刊介绍: The Comptes rendus - Mécanique cover all fields of the discipline: Logic, Combinatorics, Number Theory, Group Theory, Mathematical Analysis, (Partial) Differential Equations, Geometry, Topology, Dynamical systems, Mathematical Physics, Mathematical Problems in Mechanics, Signal Theory, Mathematical Economics, … The journal publishes original and high-quality research articles. These can be in either in English or in French, with an abstract in both languages. An abridged version of the main text in the second language may also be included.
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