Numerical Models for the Prediction of Failure for Multilayer Fusion Al-Alloy Sheets

机译：多层熔融铝合金板材失效预测的数值模型

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Initiation and propagation of cracks in monolithic and multi-layer aluminum alloys, called “Fusion”, is investigated. 2D plane strain finite element simulations are performed to model deformation due to bending and to predict failure. For this purpose, fracture strains are measured based on microscopic pictures of Nakajima specimens. In addition to, micro-structure of materials is taken into account by introducing a random grain distribution over the sheet thickness as well as a random distribution of the measured yield curve. It is shown that the performed experiments and the introduced FE-Model are appropriate methods to highlight the advantages of the Fusion material, especially for bending processes.

机译：研究了单层和多层铝合金中裂缝的启动和传播，称为“融合”。 2D平面应变有限元模拟以弯曲和预测失败而进行模拟变形。为此目的，基于Nakajima标本的微观图像测量骨折菌株。除了通过在片材厚度上引入随机颗粒分布以及测量的产曲线的随机分布来考虑材料的微结构。结果表明，所进行的实验和引入的Fe模型是突出熔融材料的优点的合适方法，特别是对于弯曲过程。

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《International Conference and Workshop on Numerical Simulation of 3D Sheet Metal Forming Processes》|2013年||共4页
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Maysam Gorji; Bekim Berisha; Pavel Hora; JürgenTimm;
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中图分类 77.3083;
关键词
Fusion; Clad; Bending; Fracture; Grains.;

机译：融合;包覆;弯曲;骨折;谷物。;

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Numerical Models for the Prediction of Failure for Multilayer Fusion Al-Alloy Sheets

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