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Application of the Dung's Microscopic Damage Model to Predict Ductile Fracture of the Deep Drawn Aluminum Alloy Sheets

机译：粪便微观损伤模型在深拉铝合金板材预测韧性断裂

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In this paper, a mechanistic model to predict failure voided ductile materials is developed based on the Dung's microscopic damage model (Dung, N.L., 1992, Three Dimensional Void Growth in Plastic Materials, Mechanics Research Communications, Vol. 19, No. 3). The model incorporates the Hill's quadratic anisotropic yield criterion (1948) to account for anisotropy of sheet metals. The model is implemented as a vectorized user-defined material (VUMAT) subroutine in the ABAQUS/Explicit commercial finite element code. Predictions of ductile crack behavior based on void nucleation, growth and coalescence by the Dung's model are compared with Gurson-Tvergaard-Needleman (GTN) model and published experimental data.

机译：本文基于DUNG的微观损伤模型（Dung，N.L.，1992，塑料材料，力学研究通讯，Vol.19，第3卷，Vol.19，No.3）开发了一种机械模型，基于Dung的显微损伤模型（Dung，N.L.，1992，三维无效生长，第3卷。19，3）。该模型包括山山的二次各向异性产量标准（1948），以考虑片状金属的各向异性。该模型被实现为ABAQUS /显式商业有限元代码中的矢量化用户定义的材料（VUMAT）子程序。将Dung模型的基于无效核切割，生长和聚结的延性裂纹行为的预测与Gurson-Tvergaard-Collememan（GTN）模型和公布的实验数据进行了比较。

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《AETA conference》|2016年|xiv 917 p.|共11页
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Hao H. Nguyen; Trung N. Nguyen; Hoa C. Vu;
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中图分类输配电工程、电力网及电力系统;
关键词
Ductile fracture; Sheet forming; Dung's model; Micro-crack mechanism; Anisotropy;

机译：韧性骨折;片成形;粪型;微裂缝机制;各向异性;

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3. A Novel Damage Model to Predict Ductile Fracture Behavior for Anisotropic Sheet Metal [J] . Hua Zhang, Hong Zhang, Fuguo Li, Metals . 2019,第5期

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4. Application of the Dung's Microscopic Damage Model to Predict Ductile Fracture of the Deep Drawn Aluminum Alloy Sheets [C] . Hao H. Nguyen, Trung N. Nguyen, Hoa C. Vu AETA conference . 2016

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Application of the Dung's Microscopic Damage Model to Predict Ductile Fracture of the Deep Drawn Aluminum Alloy Sheets

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