二维变形结构的反设计

IF 2.9 3区工程技术 Q2 ENGINEERING, MECHANICAL

Journal of Mechanical Design Pub Date : 2023-08-16 DOI:10.1115/1.4063191

Mohammad Abu-Mualla, Victor Jiron, Jida Huang

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引用次数: 0

摘要

本文提出了一种利用二维六边形单元格与弯曲梁相结合的横向变形结构反演方法。导出了基本单元胞的有效杨氏模量和泊松比作为其几何参数的函数的解析表达式。有效的横向泊松比可以通过操纵一组几何参数来控制，从而得到一个超过6000个数据点的数据集，泊松比的值在-1.2到10.4之间。此外，我们利用建立的数据集来训练一个利用物理引导神经网络算法的逆设计框架，该框架可以预测目标形状变形结构的设计参数。所提出的方法能够生成具有定制泊松比范围从-1.2到3.4的结构，同时确保预测结构内的灵活性和降低应力集中。通过数值模拟和物理拉伸试验验证了所生成的变形结构的性能。有限元模拟结果与设计值吻合较好，拉伸试验结果与设计值吻合较好。所提出的设计自动化框架证明了创建复杂实用的形状变形结构的可行性，具有较高的精度和计算效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Inverse Design of 2D Shape-Morphing Structures

This study proposes an inverse method for synthesizing shape-morphing structures in the lateral direction by integrating two-dimensional hexagonal unit-cell with curved beams. Analytical expressions are derived to formulate the effective Young's modulus and Poisson's ratio for the base unit cell as a function of its geometric parameters. The effective lateral Poisson's ratio can be controlled by manipulating a set of geometric parameters, resulting in a dataset of over 6000 data points with Poisson's ratio values ranging from -1.2 to 10.4. Furthermore, we utilize the established dataset to train an inverse design framework that utilizes a physics-guided neural network algorithm, and the framework can predict design parameters for a targeted shape-morphing structure. The proposed approach enables the generation of structures with tailored Poisson's ratio ranging from -1.2 to 3.4 while ensuring flexibility and reduced stress concentration within the predicted structure. The generated shape-morphing structures' performance is validated through numerical simulation and physical tensile testing. The FEA simulation results confirm agreement with the designed values for the shape-morphing structure, and the tensile testing results reveal the same trend in shape-morphing behavior. The proposed design automation framework demonstrates the feasibility of creating intricate and practical shape-morphing structures with high accuracy and computational efficiency.

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来源期刊

Journal of Mechanical Design 工程技术-工程：机械

CiteScore

8.00

自引率

18.20%

发文量

139

审稿时长

3.9 months

期刊介绍： The Journal of Mechanical Design (JMD) serves the broad design community as the venue for scholarly, archival research in all aspects of the design activity with emphasis on design synthesis. JMD has traditionally served the ASME Design Engineering Division and its technical committees, but it welcomes contributions from all areas of design with emphasis on synthesis. JMD communicates original contributions, primarily in the form of research articles of considerable depth, but also technical briefs, design innovation papers, book reviews, and editorials. Scope: The Journal of Mechanical Design (JMD) serves the broad design community as the venue for scholarly, archival research in all aspects of the design activity with emphasis on design synthesis. JMD has traditionally served the ASME Design Engineering Division and its technical committees, but it welcomes contributions from all areas of design with emphasis on synthesis. JMD communicates original contributions, primarily in the form of research articles of considerable depth, but also technical briefs, design innovation papers, book reviews, and editorials.