Topology optimization with closed B-splines and Boolean operations

Weihong Zhang; Linying Zhao; Tong Gao; Shouyu Cai

doi:10.1016/j.cma.2016.11.015

Topology optimization with closed B-splines and Boolean operations

Weihong Zhang, Linying Zhao, Tong Gao, Shouyu Cai

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

86 Scopus citations

Abstract

In this work, free-form curves of closed B-splines (CBS) are introduced as basic design primitives to realize structural topology optimization in the way of shape optimization. Unlike the existing density and level-set methods, the CBS takes full advantage of its parametric form for the design deformability and flexibility with a few number of design variables, and its implicit form for Boolean operations of the structural topology accounting for any overlapping, merging and separation of different CBS no matter how geometric complexities of the CBS and the design domain are. The CBS is implemented within the computing framework of finite cell method (FCM) so that structural analysis and topology optimization can efficiently be carried out using the fixed mesh. Typical examples are tested to demonstrate the effectiveness and generality of the proposed method in dealing with engineering design problems.

Original language	English
Pages (from-to)	652-670
Number of pages	19
Journal	Computer Methods in Applied Mechanics and Engineering
Volume	315
DOIs	https://doi.org/10.1016/j.cma.2016.11.015
State	Published - 1 Mar 2017

Keywords

Boolean operations
Closed B-splines
Finite cell method
Level-set function
Topology optimization

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10.1016/j.cma.2016.11.015

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title = "Topology optimization with closed B-splines and Boolean operations",

abstract = "In this work, free-form curves of closed B-splines (CBS) are introduced as basic design primitives to realize structural topology optimization in the way of shape optimization. Unlike the existing density and level-set methods, the CBS takes full advantage of its parametric form for the design deformability and flexibility with a few number of design variables, and its implicit form for Boolean operations of the structural topology accounting for any overlapping, merging and separation of different CBS no matter how geometric complexities of the CBS and the design domain are. The CBS is implemented within the computing framework of finite cell method (FCM) so that structural analysis and topology optimization can efficiently be carried out using the fixed mesh. Typical examples are tested to demonstrate the effectiveness and generality of the proposed method in dealing with engineering design problems.",

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AU - Zhang, Weihong

AU - Zhao, Linying

AU - Gao, Tong

AU - Cai, Shouyu

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Y1 - 2017/3/1

N2 - In this work, free-form curves of closed B-splines (CBS) are introduced as basic design primitives to realize structural topology optimization in the way of shape optimization. Unlike the existing density and level-set methods, the CBS takes full advantage of its parametric form for the design deformability and flexibility with a few number of design variables, and its implicit form for Boolean operations of the structural topology accounting for any overlapping, merging and separation of different CBS no matter how geometric complexities of the CBS and the design domain are. The CBS is implemented within the computing framework of finite cell method (FCM) so that structural analysis and topology optimization can efficiently be carried out using the fixed mesh. Typical examples are tested to demonstrate the effectiveness and generality of the proposed method in dealing with engineering design problems.

AB - In this work, free-form curves of closed B-splines (CBS) are introduced as basic design primitives to realize structural topology optimization in the way of shape optimization. Unlike the existing density and level-set methods, the CBS takes full advantage of its parametric form for the design deformability and flexibility with a few number of design variables, and its implicit form for Boolean operations of the structural topology accounting for any overlapping, merging and separation of different CBS no matter how geometric complexities of the CBS and the design domain are. The CBS is implemented within the computing framework of finite cell method (FCM) so that structural analysis and topology optimization can efficiently be carried out using the fixed mesh. Typical examples are tested to demonstrate the effectiveness and generality of the proposed method in dealing with engineering design problems.

KW - Boolean operations

KW - Closed B-splines

KW - Finite cell method

KW - Level-set function

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Topology optimization with closed B-splines and Boolean operations

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