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A finite strain isotropic/kinematic hardening model for springback simulation of sheet metals

机译：用于片金属回弹模拟的有限菌株各向同性/运动型硬化模型

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Crucial for the accurate prediction of the blank springback is the use of an appropriate material model, which is capable of modelling the typical cyclic hardening behaviour of metals (e.g. Bauschinger effect, ratchetting). The proposed material model combines both nonlinear isotropic hardening and nonlinear kinematic hardening, and is defined in the finite strain regime. The kinematic hardening component represents a continuum extension of the classsical rheological model of Armstrong-Frederick kinematic hardening. The evolution equations of the model are integrated by a new form of the exponential map algorithm, which preserves the plastic volume and the symmetry of the internal variables. Finally, the applicability of the model for springback prediction has been demonstrated by performing simulations of the draw-bending process.

机译：对于空白回弹的精确预测是一种适当的材料模型，该材料模型能够建模金属的典型环状硬化行为（例如Bauschinger效应，棘轮）。所提出的材料模型结合了非线性各向同性硬化和非线性运动硬化，并且在有限的应变状态下定义。运动硬化组分代表了Armstrong-Frederick运动学硬化的典型流变模型的连续延伸。模型的演化方程由一种新形式的指数地图算法集成，它保留了内部变量的塑性容积和对称性。最后，通过执行诸如抽取弯曲过程的模拟来证明了对回弹预测模型的适用性。

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《European Scientific Association for Material Forming Conference on Material Forming 》|2007年||共6页
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作者
Ivaylo N. Vladimirov; Stefanie Reese;
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原文格式 PDF
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中图分类 TB3-532;
关键词
finite strains; kinematic and isotropic hardening; exponential map; springback;

机译：有限菌株;运动和各向同性硬化;指数地图;回弹;

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专利

1. Prediction of springback in sheet forming by a new finite strain model with nonlinear kinematic and isotropic hardening [J] . I. N. Vladimirov, M. P. Pietryga, S. Reese Journal of Materials Processing Technology . 2009 ,第8期

机译：用非线性运动学和各向同性硬化的新有限应变模型预测板材成形中的回弹
2. A finite strain constitutive model for non-quadratic yield criteria and nonlinear kinematic/isotropic hardening: application to sheet metal forming [J] . Grilo Tiago J., Vladimirov Ivaylo N., Valente Robertt A. F., Archive of Applied Mechanics . 2016 ,第1a2期

机译：非二次屈服准则和非线性运动/各向同性硬化的有限应变本构模型：在钣金成形中的应用
3. A non-associated anisotropic plasticity model with mixed isotropic-kinematic hardening for finite element simulation of incremental sheet metal forming process [J] . Bouhamed Abir, Jrad Hanen, Ben Said Lotfi, The International Journal of Advanced Manufacturing Technology . 2019 ,第1a4期

机译：具有混合各向同性 - 运动硬化的无相关各向异性塑性模型，用于增量板材成形过程的有限元模拟
4. A finite strain isotropic/kinematic hardening model for springback simulation of sheet metals [C] . Ivaylo N. Vladimirov, Stefanie Reese European Scientific Association for Material Forming Conference on Material Forming . 2007

机译：用于片金属回弹模拟的有限菌株各向同性/运动型硬化模型
5. Numerical Simulation of Sheet Metal Forming Using Non-Associated Flow Rule and Mixed Isotropic-Nonlinear Kinematic Hardening Model. [D] . Taherizadeh, Aboozar. 2009

机译：基于非关联流规则和各向同性-非线性混合运动硬化模型的钣金成形数值模拟。
6. Finite Plane Strain Bending under Tension of Isotropic and Kinematic Hardening Sheets [O] . Stanislav Strashnov, Sergei Alexandrov, Lihui Lang 2021

机译：在各向同性和运动硬化板的张力下弯曲有限平面应变
7. Numerical Simulation of Sheet Metal Forming Using Non-Associated Flow Rule and Mixed Isotropic-Nonlinear Kinematic Hardening Model [O] . Taherizadeh Aboozar 2010

机译：非关联流规则和各向同性-非线性混合运动硬化模型的钣金成形数值模拟
8. Influence of Plastic-Strain-Induced Anisotropy, Modeled as Combined Isotropic-Kinematic Hardening, on the Stress Distributions Generated in the Finite Deformation of Ductile Metals [R] . Suh, Y. S., Lee, E. H. 1990

机译：塑性应变诱导各向异性的模拟 - 组合各向同性 - 运动硬化对韧性金属有限变形中产生的应力分布的影响

A finite strain isotropic/kinematic hardening model for springback simulation of sheet metals

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