A phase-field-based graded-material topology optimization with stress constraint

Auricchio Ferdinando; Bonetti Elena; Carraturo Massimo; Hoemberg Dietmar; Reali Alessandro; Rocca Elisabetta

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A phase-field-based graded-material topology optimization with stress constraint

机译：基于基于阶段的分级材料拓扑优化，压力约束

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摘要

In this paper, a phase-field approach for structural topology optimization for a 3D-printing process which includes stress constraints and potentially multiple materials or multiscales is analyzed. First-order necessary optimality conditions are rigorously derived and a numerical algorithm which implements the method is presented. A sensitivity study with respect to some parameters is conducted for a two-dimensional cantilever beam problem. Finally, a possible workflow to obtain a 3D-printed object from the numerical solutions is described and the final structure is printed using a fused deposition modeling (FDM) 3D printer.

机译：在本文中，分析了用于3D打印过程的结构拓扑优化的相位现场方法，其包括应力约束和潜在多个材料或多芯片。一阶必要的最优性条件严格导出，并且呈现了一种实现该方法的数值算法。对一些参数进行灵敏度研究，用于二维悬臂梁问题。最后，描述了从数值解决方案获得3D打印对象的可能工作流程，使用融合沉积建模（FDM）3D打印机打印最终结构。

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来源
《Mathematical models and methods in applied sciences》 |2020年第8期|共23页
作者
Auricchio Ferdinando; Bonetti Elena; Carraturo Massimo; Hoemberg Dietmar; Reali Alessandro; Rocca Elisabetta;
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作者单位

Univ Pavia Dipartimento Ingn Civile &

Architettura DICAR Via Ferrata 3 I-27100 Pavia Italy;

Univ Milan Dipartimento Matemat F Enriques Via Saldini 50 I-20133 Milan Italy;

Univ Pavia Dipartimento Ingn Civile &

Architettura DICAR Via Ferrata 3 I-27100 Pavia Italy;

Weierstrass Inst Appl Anal &

Stochast Mohrenstr 39 D-10117 Berlin Germany;

Univ Pavia Dipartimento Ingn Civile &

Architettura DICAR Via Ferrata 3 I-27100 Pavia Italy;

Univ Pavia Dipartimento Matemat F Casorati Via Ferrata 5 I-27100 Pavia Italy;

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原文格式 PDF
正文语种 eng
中图分类应用数学;
关键词
First-order necessary optimality conditions; phase-field method; structural topology optimization; functionally graded material;

机译：一阶必要的最优性条件;相位现场方法;结构拓扑优化;功能分级材料;

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专利

1. A phase-field-based graded-material topology optimization with stress constraint [J] . Auricchio Ferdinando, Bonetti Elena, Carraturo Massimo, Mathematical models and methods in applied sciences . 2020,第8期

机译：基于基于阶段的分级材料拓扑优化，压力约束
2. A new method based on adaptive volume constraint and stress penalty for stress-constrained topology optimization [J] . Sheng Chu, Liang Gao, Mi Xiao, Structural and multidisciplinary optimization . 2018,第3期

机译：一种基于自适应体积约束和应力限制拓扑优化应力损失的新方法
3. A non-uniform cellular automata framework for topology and sizing optimization of truss structures subjected to stress and displacement constraints [J] . El Bouzouiki Mohamed, Sedaghati Ramin, Stiharu Ion Computers & Structures . 2021,第Jana期

机译：拓扑结构的非均匀蜂窝自动机框架和桁架结构的尺寸优化，受到应力和位移约束的
4. Topology Optimization with Stress Constraints: Reduction of Stress Concentration in Functionally Graded Structures [C] . Fernando V. Stump, Emílio C. N. Silva, Glaucio H. Paulino International Conference on Multiscale and Functionally Graded Materials . 2008

机译：具有应力约束的拓扑优化：功能渐变结构中的应力集中的降低
5. Topology Optimization of Truss Structures Considering Stress and Stability Constraints [D] . Nwe Nwe, May Thu. 2019

机译：考虑应力和稳定性约束的桁架结构的拓扑优化
6. Design Applicable 3D Microfluidic Functional Units Using 2D Topology Optimization with Length Scale Constraints [O] . Yuchen Guo, Hui Pan, Eddie Wadbro, 2020

机译：使用具有长度尺度约束的2D拓扑优化设计适用的3D微流体功能单元
7. Topology Optimization with Stress Constraints: Reduction of Stress Concentration in Functionally Graded Structures [O] . O V. Stump, Emilio C. N. Silva, Glaucio H. Paulino 2015

机译：应力约束的拓扑优化：功能梯度结构中应力集中的减少

A phase-field-based graded-material topology optimization with stress constraint

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