A Novel Test Design for Large Strain Uniaxial Reverse Loading of AZ31B Sheet Out of the Rolling Plane

IF 1.5 4区 材料科学 Q3 ENGINEERING, MECHANICAL
A. Yazdanmehr, Ali A. Roostaei, H. Jahed
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引用次数: 2

Abstract

Understanding a magnesium alloy sheet's response to load reversals is important to accurately simulate and optimize a component's manufacturing process. Through this research, the room temperature compression-tension and tension-compression experiments with strains up to ∼12% are performed on AZ31B-H24 sheet specimens along the normal direction of a 6.35 mm-thick sheet. Miniature specimens machined through thickness are tested using a novel setup designed for large strain reverse loading data generation where specimen size is limited. The reliability of the devised setup is verified by finite element simulation and by reproducing in-plane curves obtained via an anti-buckling fixture. A shot peening process involving prevailing through-thickness deformation is modeled and numerical results indicate that employing only in-plane properties of magnesium sheets for simulating such processes can lead to inaccurate predictions.
AZ31B板轧制平面外大应变单轴反加载试验设计
了解镁合金板材对载荷逆转的响应对于准确模拟和优化组件的制造过程非常重要。通过本研究,对AZ31B-H24板材试样沿6.35 mm厚板材法向进行了室温压缩-拉伸和应变高达~ 12%的拉伸-压缩实验。通过厚度加工的微型试样使用一种新颖的装置进行测试,该装置设计用于大应变反向加载数据生成,其中试样尺寸有限。通过有限元仿真和再现抗屈曲夹具得到的平面内曲线,验证了所设计装置的可靠性。模拟了一个涉及普遍贯穿厚度变形的喷丸强化过程,数值结果表明,仅采用镁片的面内特性来模拟这一过程可能导致不准确的预测。
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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