二维正交各向异性介质的材料自旋和有限应变准弹性

Q2 Engineering

Engineering Transactions Pub Date : 2018-12-20 DOI:10.24423/ENGTRANS.799.20181203

Ivan Yurievitch Zubko

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引用次数: 1

摘要

利用最小化原理，在纯弹性有限应变变形的情况下，引入了二维正交各向异性介质的本构材料自旋张量，以获得材料体积的重新加载配置。这种材料自旋解释了正交矢量帧的旋转，该正交矢量帧与材料体积的初始配置中的材料对称轴重合，并且在当前配置中唯一地对应于这些轴的集合，尽管它与后者不重合。在给出的定义之后，给出了包括变形梯度张量、初始材料各向异性轴的单位向量及其轴向参数的精确表达式。该定义允许获得一种新的变体，将任何弹性有限应变运动分解到刚性和变形部件上，并引入材料共旋率。后者用于在当前配置中基于不属于Seth-Hill族的应变测量来制定各向异性速率型弹性定律。对于各向同性和四方介质，引入的材料旋转张量与变形梯度极性分解的旋转张量一致。

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Material Spin and Finite-Strain Hypo-Elasticity for Two-Dimensional Orthotropic Media

A constitutive material spin tensor in the case of purely elastic finite-strain deformation is introduced for a two-dimensional orthotropic media using the minimizing principle applied to obtain the reloaded configuration of the material volume. This material spin explains the rotation of the orthonormal vector frame which coincides with the material symmetry axes in the initial configuration of the material volume and uniquely corresponds to a set of these axes in the current configuration although it does not coincide with the latter. The given definition is followed by the exact expression which includes the deformation gradient tensor, unit vectors of the initial material anisotropy axes and their axial parameters. This definition allows obtaining a new variant of decomposing any elastic finite-strain motion onto rigid and deformational parts and introducing the material corotational rate. The latter is used for the formulation of the anisotropic rate-type elastic law in the current configuration based on the strain measure which does not belong to the Seth-Hill family. For isotropic as well as for tetragonal media, the introduced material rotation tensor coincides with the rotation tensor from the polar decomposition of a deformation gradient.

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来源期刊

Engineering Transactions Engineering-Engineering (all)

CiteScore

1.40

自引率

0.00%

发文量

期刊介绍： Engineering Transactions (formerly Rozprawy Inżynierskie) is a refereed international journal founded in 1952. The journal promotes research and practice in engineering science and provides a forum for interdisciplinary publications combining mechanics with: Material science, Mechatronics, Biomechanics and Biotechnologies, Environmental science, Photonics, Information technologies, Other engineering applications. The journal publishes original papers covering a broad area of research activities including: experimental and hybrid techniques, analytical and numerical approaches. Review articles and special issues are also welcome. Following long tradition, all articles are peer reviewed and our expert referees ensure that the papers accepted for publication comply with high scientific standards. Engineering Transactions is a quarterly journal intended to be interesting and useful for the researchers and practitioners in academic and industrial communities.