A Novel Modeling Platform for Characterization and Optimal Design of Micro-Architected Materials

机译：用于微结构材料表征和优化设计的新型建模平台

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Recent advances in multi-scale manufacturing enable fabrication of hollow-truss based lattices with dimensional control spanning seven orders of magnitude in length scale (from ～50nm to ～10cm), offering tremendous potential for multifunctionality. Topology optimization is essential to realize the full potential of these micro-architected materials. This paper presents a novel optimal design and modeling platform, consisting of four interconnected tools: (i) a geometric modeling algorithm; (ii) a meshing algorithm; (iii) an optimal design code; and (iv) a communication interface with a commercial Finite Elements program (Abaqus). The powerfulness of the proposed platform is demonstrated for the optimization of specific stiffness in pyramidal hollow micro-lattices.

机译：多尺度制造的最新进展使得能够制造尺寸控制范围从7个数量级（从〜50nm到〜10cm）的中空桁架基网格，为多功能性提供了巨大潜力。拓扑优化对于实现这些微体系结构材料的全部潜力至关重要。本文提出了一种新颖的最佳设计和建模平台，该平台由四个相互关联的工具组成：（i）几何建模算法; （ii）网格划分算法; （iii）最佳设计规范; （iv）与商业有限元程序（Abaqus）的通信接口。证明了所建议平台的强大功能，可优化金字塔形空心微晶格的比刚度。

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《AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference》|2012年|p.9980-9989|共10页
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Scott W. Godfrey; Lorenzo Valdevit;
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中图分类工程材料一般性问题;工程材料一般性问题;
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4. A Novel Modeling Platform for Characterization and Optimal Design of Micro-Architected Materials [C] . Scott W. Godfrey, Lorenzo Valdevit AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics and materials conference . 2012

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机译：功能梯度材料热表征的优化实验设计

A Novel Modeling Platform for Characterization and Optimal Design of Micro-Architected Materials

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