Topology optimization for effective energy propagation in rate-independent elastoplastic material systems

Nakshatrala P. B.; Tortorelli D. A.

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Topology optimization for effective energy propagation in rate-independent elastoplastic material systems

机译：在速率独立的弹塑性材料系统中有效能量传播的拓扑优化

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A topology optimization framework for effective energy management in dynamically loaded structures with rate-independent elastoplastic material behavior is presented. The elastoplastic constitutive equations are integrated using an implicit numerical scheme based on a multi-level Newton procedure. This primal analysis procedure requires the computation of the incremental algorithmic consistent tangent operator derived from the mappings that enforce the evolving constitutive relations. For our gradient based optimization, we develop discrete adjoint sensitivity expressions. Finite element implementation is discussed and the optimization framework is exemplified via the design of three-dimensional structures subjected to dynamic loads. (C) 2015 Elsevier B.V. All rights reserved.

机译：提出了一种拓扑优化框架，用于在速率独立的弹塑性材料行为的动态加载结构中进行有效的能量管理。弹塑性本构方程使用基于多层牛顿法的隐式数值格式进行积分。这种原始分析过程需要计算从强制执行本构关系的映射中得出的增量算法一致切线算符。对于基于梯度的优化，我们开发了离散的伴随灵敏度表达式。讨论了有限元实现方法，并通过设计承受动态载荷的三维结构来举例说明了优化框架。（C）2015 Elsevier B.V.保留所有权利。

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来源
《Computer Methods in Applied Mechanics and Engineering》 |2015年第1期|305-326|共22页
作者
Nakshatrala P. B.; Tortorelli D. A.;
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作者单位

Univ Illinois, Dept Mech Sci & Engn, Urbana, IL 61801 USA;

Univ Illinois, Dept Mech Sci & Engn, Urbana, IL 61801 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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关键词
Topology optimization; Elastoplastic material response; Algorithmic consistent tangent operator; Discrete adjoint sensitivity analysis;

机译：拓扑优化;弹塑性材料响应;算法一致切线算子;离散伴随灵敏度分析;

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2. Design of functionally graded piezocomposites using topology optimization and homogenization - Toward effective energy harvesting materials [J] . S.L. Vatanabe, G.H. Paulino, E.C.N. Silva Computer Methods in Applied Mechanics and Engineering . 2013,第nova1期

机译：利用拓扑优化和均质化设计功能梯度压电复合材料-寻求有效的能量收集材料
3. Using strain energy-based prediction of effective elastic properties in topology optimization of material microstructures [J] . Weihong Zhang, Gaoming Dai, Fengwen Wang, 力学学报：英文版 . 2007,第001期

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4. Topology and shape optimization including elastoplastic material behavior [C] . Schwarz, Stefan In: AIAA/USAF/NASA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, 7th, St. Louis, MO, Sept. 2-4, 1998, Collection of Technical Papers. Pt. 3 (A98-39701 10-31), Reston, VA, American Institute of Aeronautics and Astronautics, 1998 . 1998

机译：拓扑和形状优化，包括弹塑性材料行为
5. Wave propagation through composite materials: Effective properties and optimization. [D] . Simeonova, Lyubima. 2009

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6. Influence of Density-Based Topology Optimization Parameters on the Design of Periodic Cellular Materials [O] . Hugo A. Alvarez, Habib R. Zambrano, Olavo M. Silva 2019

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7. Conceptual design of reinforced concrete structures using topology optimization with elastoplastic material modeling [O] . Bogomolny Michael, Amir Oded 2012

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8. Multiobjective Topology Optimization of Energy Absorbing Materials. [R] . Wildman, R. A., Gazonas, G. A. 2015

机译：能量吸收材料的多目标拓扑优化。

Topology optimization for effective energy propagation in rate-independent elastoplastic material systems

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