ELASTIC-PLASTIC MODELING OF HARDENING MATERIALS USING A COROTATIONAL RATE BASED ON THE PLASTIC SPIN TENSOR

机译：基于塑性自旋张量的基于速率的硬化材料弹塑性建模

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In this paper based on the multiplicative decomposition of the deformation gradient, the plastic spin tensor and the plastic spin corotational rate are introduced. Using this rate (and also log-rate), an elastic-plastic constitutive model for hardening materials are proposed. In this model, the Armstrong-Frederick kinematic hardening and the isotropic hardening equations are used. The proposed model is solved for the simple shear problem with the material properties of the stainless steel SUS 304. The results are compared with those obtained experimentally by Ishikawa [1]. This comparison shows a good agreement between the results of proposed theoretical model and the experimental data. As another example, the Prager kinematic hardening equation is used. In this case, the stress results are compared with those obtained by Bruhns et al. [2], in which they used the additive decomposition of the strain rate tensor.

机译：本文基于变形梯度的乘法分解，引入了塑料旋转张量和塑料自旋燃料速率。使用该速率（以及对数率），提出了一种用于硬化材料的弹性塑性本构型模型。在该模型中，使用Armstrong-Frederick运动硬化和各向同性硬化方程。该提出的模型用于简单的剪切问题，具有不锈钢SUS 304的材料特性。将结果与Ishikawa [1]实验获得的结果进行比较。这种比较显示了提出理论模型和实验数据的结果之间的良好一致性。作为另一个例子，使用了普拉格运动的硬化方程。在这种情况下，将应力结果与Bruhns等人获得的那些进行比较。 [2]，它们使用了应变速率张量的添加剂分解。

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《ASME(American Society of Mechanical Engineers) Pressure Vessels and Piping Conference 2007》|2008年|P.50|共1页
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Kamyar Ghavam; Reza Naghdabadi;
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中图分类压力容器;
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elastic-plastic materials; plastic spin; finite deformations; corotational rates;

机译：弹塑性材料;塑性自旋;有限变形;介电常数;

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专利

1. Hardening materials modeling in finite elastic-plastic deformations based on the stretch tensor decomposition [J] . K. Ghavam, R. Naghdabadi Materials & design . 2008,第1期

机译：基于拉伸张量分解的有限弹塑性变形中的硬化材料建模
2. Constitutive modeling of temperature and strain rate dependent elastoplastic hardening materials using a corotational rate associated with the plastic deformation [J] . Ghavam K., Naghdabadi R. International Journal of Plasticity . 2011,第9期

机译：温度和应变率相关的弹塑性硬化材料的本构模型使用与塑性变形相关的比例速率
3. Application of corotational rates of the logarithmic strain in constitutive modeling of hardening materials at finite deformations [J] . Naghdabadi R, Yeganeh M, Saidi AR International Journal of Plasticity . 2005,第8期

机译：对数应变的配比率在硬化材料有限变形本构模型中的应用
4. ELASTIC-PLASTIC MODELING OF HARDENING MATERIALS USING A COROTATIONAL RATE BASED ON THE PLASTIC SPIN TENSOR [C] . Kamyar Ghavam, Reza Naghdabadi ASME Pressure Vessels and Piping Conference . 2008

机译：基于塑料旋转张量的蚀刻速率的硬化材料弹性塑料建模
5. Elastic-plastic modeling of unsaturated high plastic clay using results from a new triaxial test with controlled suction. [D] . Blatz, James Ayrton. 2000

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6. Effect of Hardening Exponent of Power-Law Hardening Elastic-Plastic Substrate on Contact Behaviors in Coated Asperity Contact [O] . Xiqun Lu, Hanzhang Xu, Bin Zhao 2018

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7. A Lagrangian model for hardening behaviour of materials at finite deformation based on the right plastic stretch tensor [O] . Eshraghi, Amin, Jahed, Hamid, Lambert, Steve 2010

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ELASTIC-PLASTIC MODELING OF HARDENING MATERIALS USING A COROTATIONAL RATE BASED ON THE PLASTIC SPIN TENSOR

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