Hysteresis Analysis on Origami Energy Dissipation Braces with Local Miura Units

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-06-28 DOI:10.1007/s10338-024-00503-6

Ya Zhou, Xu Li, Yuting Zhang, Jian Feng, Jianguo Cai

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Abstract

A local design scheme for origami energy dissipation braces was proposed by combining local Miura units at both ends and a straight segment in the middle. This design was implemented to address the issue of uneven axial stiffness observed in global origami braces. Globally and locally designed origami braces were simulated and compared under cyclic loading to validate the advantages of the proposed design scheme in terms of hysteretic properties. Additionally, an analysis was conducted on the designed braces with varying straight segment lengths, geometric angles, and origami plate thicknesses for comparison. Results indicate that the local design significantly increases the tensile bearing load, enhances the anti-buckling capability, and improves the energy dissipation performance compared to the global design. The positive impact on bearing capacity and energy dissipation performance was observed with increased straight segment length, geometric angles, and origami plate thickness. However, excessively large parameter values result in brace buckling under compression, diminishing energy dissipation capacity.

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带有局部三浦单元的折纸消能支架的滞后分析

通过将两端的局部三浦单元和中间的直线段结合起来，提出了一种折纸消能支架的局部设计方案。采用这种设计是为了解决在全局折纸支撑中观察到的轴向刚度不均匀的问题。对整体和局部设计的折纸支架进行了模拟，并在循环载荷下进行了比较，以验证所提设计方案在滞后特性方面的优势。此外，还对不同直线段长度、几何角度和折纸板厚度的设计支架进行了分析比较。结果表明，与整体设计相比，局部设计大大提高了拉伸承载力，增强了抗屈曲能力，并改善了能量耗散性能。随着直线段长度、几何角度和折纸板厚度的增加，对承载能力和能量耗散性能产生了积极影响。然而，过大的参数值会导致支撑在压缩时发生屈曲，从而降低能量耗散能力。

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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来源期刊

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464