Prediction of Crack Location in Deep Drawing Processes Using Finite Element Simulation

S. K. Panthi; Sanjeev Saxena

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Prediction of Crack Location in Deep Drawing Processes Using Finite Element Simulation

机译：基于有限元模拟的深冲过程中裂纹位置预测

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Sheet metal forming process like deep drawing subjected to large irreversible deformation. It leads to high strain localization zones and then internal or superficial micro defects. The deformation behavior and crack initiation in cylindrical deep drawing of aluminum alloy are simulated by the elasto-plastic finite element simulation. A1 100-O and A2024-T4 sheet material are used in the simulation. Material properties based on the tensile and plane strain test is used in the simulation. Six cases are simulated in this study with different blank diameter. The simulated results are compared with the experimental results in terms of the crack location and critical punch displacement. The comparison of simulated results with experimental results shows a good agreement.

机译：诸如深冲之类的钣金成形过程会遭受不可逆的大变形。它导致高应变局部化区域，然后导致内部或表面微缺陷。通过弹塑性有限元模拟，模拟了铝合金圆柱深冲中的变形行为和裂纹萌生。模拟中使用A1 100-O和A2024-T4板材。仿真中使用了基于拉伸和平面应变测试的材料特性。在本研究中模拟了六例不同毛坯直径的情况。将模拟结果与实验结果在裂纹位置和临界冲头位移方面进行了比较。模拟结果与实验结果的比较显示出很好的一致性。

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来源
《Computers, Materials & Continua》 |2012年第1期|15-27|共13页
作者
S. K. Panthi; Sanjeev Saxena;
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作者单位

Computer Simulation & Process Modeling, CSIR-Advanced Materials and Process Research Institute (AMPRI), Bhopal (MP) India-462064;

CSIR-Advanced Materials and Process Research Institute (AMPRI). Bhopal (MP) India-462064;

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正文语种 eng
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关键词
Fracture; deep drawing process; finite element simulation;

机译：断裂;深冲压工艺;有限元模拟;

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Prediction of Crack Location in Deep Drawing Processes Using Finite Element Simulation

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