Introducing a novel sheet test specimen for biaxial stretching under uniaxial loading

IF 3.9 Q2 ENGINEERING, INDUSTRIAL Advances in Industrial and Manufacturing Engineering Pub Date : 2024-04-19 DOI:10.1016/j.aime.2024.100141
Rui F.V. Sampaio , João P.M. Pragana , Ivo M.F. Bragança , Carlos M.A. Silva , Paulo A.F. Martins
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Abstract

This paper introduces a novel sheet test specimen that plastically deforms under biaxial stretching when subjected to uniaxial loading in conventional testing machines. The specimen was designed using finite element simulation and consists of a two-dimensional reticular structure with interconnected arms in the form of triangles that converge at the center and are connected to full-width sheets at the specimen's ends. Accumulation of damage at the center is ensured through spherical cups that are milled at opposite sheet surfaces. Experimental strain loading paths obtained by digital image correlation confirm the capability of the novel sheet test specimen to provide biaxial stretching strain paths. This is achieved under friction-independent conditions and without requiring complicated multiaxial setups and machines, provided appropriate values of the inner and outer angles of the interconnected arms are used.

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引入一种新型薄片试样,用于单轴加载下的双轴拉伸试验
本文介绍了一种新型薄板测试试样,当在传统测试机中承受单轴载荷时,该试样会在双轴拉伸作用下发生塑性变形。该试样是利用有限元模拟设计的,由二维网状结构组成,网状结构的臂呈三角形相互连接,在中心处汇聚,并在试样两端与全宽薄片相连。通过在相对薄片表面铣制的球形杯,确保损伤在中心累积。通过数字图像相关性获得的实验应变加载路径证实,新型薄片试样能够提供双轴拉伸应变路径。这是在摩擦无关的条件下实现的,不需要复杂的多轴设置和机器,只要使用相互连接的臂的内角和外角的适当值即可。
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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
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