基于自定义局部应变传感策略的弯曲梁有限变形反演方法

IF 3.8 3区工程技术 Q1 MECHANICS

International Journal of Solids and Structures Pub Date : 2025-08-07 DOI:10.1016/j.ijsolstr.2025.113591

Hao Wang , Kai Zhang , Jinyu Ji , Xiaogang Guo

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引用次数: 0

摘要

由于弯曲梁具有较大的几何变形能力，因此经常被用作上部结构设计和可拉伸电子技术中的关键部件。然而，目前仍缺乏一种有效的方法来监测和反演这类结构在未知荷载条件下的整体变形行为。在本研究中，使用基于ligs的定制应变传感器来捕获弯曲梁结构的局部应变。建立了一种基于有限变形理论的反演框架，通过将离散应变测量与弯曲梁的有限变形分析相关联，实现大几何变形的重构。该方法能够快速反演弯曲梁在单轴拉伸荷载作用下的有限变形，并通过与试验变形结果的对比验证了该方法的有效性。晶格结构整体变形反演的论证表明，该方法为机械超材料和可拉伸电子器件的设计与优化提供了直接有效的指导。

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An inversion methodology for the finite deformation of the curved beams based on the customized local strain sensing strategy

Due to the large geometric deformation capacity of curved beams, they are frequently employed as critical components in superstructure design and stretchable electronic technology. However, there is still a lack of an efficient method for monitoring and inverting the global deformation behavior of such structures under unknown loading conditions. In this study, the LIG-based customized strain sensors are used to capture the local strains of the curved beam structure. A finite deformation theory-based inversion framework is developed to reconstruct the large geometric deformation by correlating discrete strain measurements with the finite deformation analysis of the curved beams. This approach enables rapid inversion for the finite deformation of the curved beams under uniaxial tensile loads, and its validity has been confirmed by comparing with the experimental deformation results. The demonstration of global deformation inversion of lattice structures shows that this method provides direct and effective guidance for the design and optimization of mechanical metamaterial and stretchable electronic devices.

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来源期刊

International Journal of Solids and Structures 物理-力学

CiteScore

6.70

自引率

8.30%

发文量

405

审稿时长

70 days

期刊介绍： The International Journal of Solids and Structures has as its objective the publication and dissemination of original research in Mechanics of Solids and Structures as a field of Applied Science and Engineering. It fosters thus the exchange of ideas among workers in different parts of the world and also among workers who emphasize different aspects of the foundations and applications of the field. Standing as it does at the cross-roads of Materials Science, Life Sciences, Mathematics, Physics and Engineering Design, the Mechanics of Solids and Structures is experiencing considerable growth as a result of recent technological advances. The Journal, by providing an international medium of communication, is encouraging this growth and is encompassing all aspects of the field from the more classical problems of structural analysis to mechanics of solids continually interacting with other media and including fracture, flow, wave propagation, heat transfer, thermal effects in solids, optimum design methods, model analysis, structural topology and numerical techniques. Interest extends to both inorganic and organic solids and structures.