Experimental Evaluation of Tension and Shear Responses of Material Discontinuities in Origami-Based Sheet Metal Bending

IF 1.5 4区 材料科学 Q3 ENGINEERING, MECHANICAL
Muhammad Ali Ablat, A. Alafaghani, Jian-Qiao Sun, A. Qattawi
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引用次数: 1

Abstract

Origami-based sheet metal (OSM) bending uses the origami concept to form a three-dimensional (3D) structures from a two-dimensional (2D) sheet by a series of bending operation. The OSM bending relies on a material discontinuity (MD) to perform the bending operation where the MDs are subjected to tension and shear load. Even though the OSM bending is a process that is simple, cost-effective, and easy to integrate into mass production, the understanding of the OSM bending mechanics is limiting its wide application. Particularly, the deformation behavior of MDs under tension and shear load remains unknown. Hence, this work investigates the response of MDs to these loads using the standard tension and shear tests. From the tests, critical values for two different ductile fracture criteria (DFC) are determined, and the possibility of a failure occurring in OSM bending is predicted. Results show that the load-bearing capability of the MDs is related to change in the effective cross-section area of a MD. Simple tension and shear tests can provide a simple procedure to predict failure in OSM bending. The impact of self-contact occurred under shear load influences maximum shear force and accuracy of failure prediction.
折纸弯曲中材料不连续面拉伸和剪切响应的实验评价
基于折纸的金属板(OSM)弯曲使用折纸概念,通过一系列弯曲操作,将二维(2D)板材形成三维(3D)结构。OSM弯曲依赖于材料不连续(MD)来进行弯曲操作,其中MD受到拉伸和剪切载荷。尽管OSM弯曲是一种简单、经济、易于批量生产的工艺,但对OSM弯曲力学的理解限制了其广泛应用。特别是,MDs在拉伸和剪切载荷下的变形行为仍然未知。因此,本研究使用标准拉伸和剪切试验来研究MDs对这些载荷的响应。通过试验,确定了两种不同韧性断裂准则(DFC)的临界值,并预测了OSM弯曲发生破坏的可能性。结果表明,粘结层的承载能力与粘结层有效截面面积的变化有关。简单的拉伸和剪切试验可以提供一种简单的方法来预测粘结层的弯曲破坏。剪切荷载作用下的自接触影响最大剪切力和破坏预测的精度。
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
CiteScore
3.00
自引率
0.00%
发文量
30
审稿时长
4.5 months
期刊介绍: Multiscale characterization, modeling, and experiments; High-temperature creep, fatigue, and fracture; Elastic-plastic behavior; Environmental effects on material response, constitutive relations, materials processing, and microstructure mechanical property relationships
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