Correspondence Principles For Complex Shear Characteristics In A Nonisothermal Model Of Monoharmonic Approximation For Physically Nonlinear Materials

O. P. Chervinko; I. K. Senchenkov

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Correspondence Principles For Complex Shear Characteristics In A Nonisothermal Model Of Monoharmonic Approximation For Physically Nonlinear Materials

机译：物理非线性材料单谐波近似非等温模型中复杂剪切特性的对应原理

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The Bodner-Partom nonisothermal flow model and the generalized method of harmonic linearization are used to calculate the complex shear modulus and compliance for AMg-6 aluminum alloy. The strain-and stress-controlled cycles of loading in the temperature range 20-400℃ are considered. The correspondence between the shear modulus and the compliance is studied. It is similar to the inverse proportionality condition in the theory of linear viscoelasticity. It is established that representing the modulus and compliance as functions of the strain amplitude is better than as functions of the stress amplitude due to the universal description of the characteristics for soft and hard cycles and high accuracy of correspondence.

机译：采用Bodner-Partom非等温流动模型和泛化的谐波线性化方法来计算AMg-6铝合金的复数剪切模量和顺应性。考虑了在20-400℃温度范围内的应变和应力控制的加载循环。研究了剪切模量与柔度之间的对应关系。它类似于线性粘弹性理论中的反比例条件。已经确定，由于对软，硬循环的特性的通用描述以及对应的高精度，将模量和顺应性表示为应变幅度的函数比表示为应力幅度的函数更好。

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《International Applied Mechanics》 |2008年第8期|p.872-881|共10页
作者
O. P. Chervinko; I. K. Senchenkov;
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正文语种 eng
中图分类应用力学;
关键词
nonlinear material; cyclic loading; complex modulus; correspondence principle;

机译：非线性材料循环载荷复模量对应原理;

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1. MODELING THE THERMOMECHANICAL BEHAVIOR OF PHYSICALLY NONLINEAR MATERIALS UNDER MONOHARMONIC LOADING [J] . I. K. Senchenkov, Ya. A. Zhuk, V. G. Karnaukhov International Applied Mechanics . 2004,第9期

机译：模拟单非线性载荷下物理非线性材料的热力学行为
2. Elasticity recovery correspondence principles for physically nonlinear viscoelastic problems for a class of materials [J] . Zhang CY., Zhang WM. International Journal of Solids and Structures . 2001,第46a47期

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Correspondence Principles For Complex Shear Characteristics In A Nonisothermal Model Of Monoharmonic Approximation For Physically Nonlinear Materials

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