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Numerical design of extrusion process using finite thermo-elastoviscoplasticity with damage Prediction of chevron shaped cracks

机译：具有有限热弹性缺陷性的挤出过程的数值设计，具有守墙形状裂缝的损伤预测

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The influence of the initial temperature and its evolution with large plastic deformation on the formation of the fully coupled chevron shaped cracks in extrusion is numerically investigated. Fully coupled thermo-elasto-viscoplastic constitutive equations accounting for thermal effects, mixed and nonlinear isotropic and kinematic hardening, isotropic ductile damage with micro-cracks closure effects are used. These constitutive equations have been implemented in Abaqus/Explicit code thanks to the user subroutine vumat and used to perform various numerical simulations needed to investigate the problem. It has been shown that the proposed methodology is efficient to predict the chevron shaped cracks in extrusion function of the main process parameters including the temperature effect.

机译：数值研究了初始温度及其对大塑性变形对挤出中的完全耦合的脚轮形裂缝的形成的影响。使用完全耦合的热弹性粘塑料组成方程，用于热效应，混合和非线性各向同性和运动损伤，具有微裂纹闭合效果的各向同性延展性损伤。由于用户子程序VUMAT并用于执行调查问题所需的各种数值模拟，因此在ABAQUS /显式代码中实施了这些本构方程。已经表明，所提出的方法是有效的，以预测在包括温度效应的主要过程参数的挤出功能中的剥离空心裂缝有效。

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《International Conference on Extrusion and Benchmark》|2010年||共8页
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作者
C. Labergere; K. Saanouni; P. Lestriez;
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中图分类 TG1-532;
关键词
chevron cracks; extrusion; thermo-elastoviscoplasticity; ductile damage; numerical design; FEM;

机译：雪佛龙裂缝;挤出;Thermo-Elastoviscoplicity;韧性损伤;数值设计;FEM;

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专利

1. Numerical design of extrusion process using finite thermo- elastoviscoplasticity with damage. Prediction of chevron shaped cracks [J] . C. Labergere, K. Saanouni, P. Lestriez Key Engineering Materials . 2010,第期

机译：挤压过程的数值设计，使用了有限的热弹塑性塑性和损伤。人字形裂缝的预测
2. Numerical simulation of bursting in extrusion process using finite viscoplasticity with ductile damage and thermal effects [J] . C. Labergere, P. Lestriez, K. Saanouni, International Journal of Material Forming . 2009,第s1期

机译：有限黏塑性塑性变形和热效应的挤压过程爆破数值模拟
3. Damage prediction for magnesium matrix composites formed by liquid-solid extrusion process based on finite element simulation [J] . QI Le-hua, LIU Jian, GUAN Jun-tao, 中国有色金属学报（英文版） . 2010,第009期
4. Numerical design of extrusion process using finite thermo-elastoviscoplasticity with damage Prediction of chevron shaped cracks [C] . C. Labergere, K. Saanouni, P. Lestriez International Conference on Extrusion and Benchmark . 2010

机译：具有有限热弹性缺陷性的挤出过程的数值设计，具有守墙形状裂缝的损伤预测
5. Direct extrusion process analysis with proposed numerical modeling improvements - product quality, process parameters, and microstructure prediction. [D] . De Pari, Luigi, Jr. 2009

机译：通过建议的数值建模改进对直接挤压工艺进行分析-产品质量，工艺参数和微观结构预测。
6. Numerical Analysis of Fatigue Crack Growth Path and Life Predictions for Linear Elastic Material [O] . Abdulnaser M. Alshoaibi, Yahya Ali Fageehi 2020

机译：线性弹性材料疲劳裂纹生长路径和寿命预测的数值分析
7. Study on Chevron Crack Occurring in a 4-stage Open Cold Extrusion Process by Finite Element Method [O] . H.S. Hwang, Y.S. Lee, M.S. Joun 2017

机译：通过有限元方法研究4阶段开放式冷挤压过程中的雪佛龙裂缝
8. PREDICTION OF CRACK GROWTH IN DAMAGE-TOLERANT DESIGN- A BASIC PARAMETRIC STUDY [R] . Vera J. Pike, W. T. Kirkby 1978

机译：损伤设计中裂纹扩展的预测 - 基本参数研究

Numerical design of extrusion process using finite thermo-elastoviscoplasticity with damage Prediction of chevron shaped cracks

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