基于拉伸的不可压缩各向同性超弹性软材料构造模型的纯扭转

IF 1.8 3区工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY Journal of Elasticity Pub Date : 2024-01-25 DOI:10.1007/s10659-024-10048-x

Cornelius O. Horgan

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引用次数: 0

摘要

作为经典应变不变模型的替代品，基于拉伸的各向同性超弹性材料构成模型最近受到了广泛关注，其主要原因是该模型可应用于软组织的机械响应建模。Anssari-Benam 最近针对不可压缩的各向同性超弹性软材料提出了一个这样的四参数构成模型（《弹性学报》，153:219-244, 2023 年）。该模型被认为是全面的，因为在某些参数的特定和极限值下，可以恢复几个众所周知的应变能。该模型是对几个基于微结构考虑的相关简单模型的概括，这些模型已被证明与各种软材料的实验数据十分吻合。特别是，著名的一元奥格登模型是作为一个特例获得的。在此，我们研究了新模型对实心圆柱体纯扭转问题的响应，并特别强调了控制圆柱体拉长或缩短的波因廷效应。

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Pure Torsion for Stretch-Based Constitutive Models for Incompressible Isotropic Hyperelastic Soft Materials

Stretch-based constitutive models for isotropic hyperelastic materials as alternatives to the classical strain invariant models have been the subject of considerable recent attention largely motivated by application to modelling the mechanical response of soft tissues. One such four-parameter constitutive model was proposed recently by Anssari-Benam (J. Elast. 153:219–244, 2023) for incompressible isotropic hyperelastic soft materials. The model was deemed to be comprehensive in that several well-known strain-energies may be recovered for some particular and limiting values of some of the parameters. The model is a generalization of several related simpler models based on microstructural considerations that have been shown to match well with experimental data for a wide variety of soft materials. In particular, the celebrated one-term Ogden model is obtained as a special case. Here we examine the response of the new model for the problem of pure torsion for a solid circular cylinder with particular emphasis on the Poynting effects governing the lengthening or shortening of the cylinder.

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来源期刊

Journal of Elasticity 工程技术-材料科学：综合

CiteScore

3.70

自引率

15.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Elasticity was founded in 1971 by Marvin Stippes (1922-1979), with its main purpose being to report original and significant discoveries in elasticity. The Journal has broadened in scope over the years to include original contributions in the physical and mathematical science of solids. The areas of rational mechanics, mechanics of materials, including theories of soft materials, biomechanics, and engineering sciences that contribute to fundamental advancements in understanding and predicting the complex behavior of solids are particularly welcomed. The role of elasticity in all such behavior is well recognized and reporting significant discoveries in elasticity remains important to the Journal, as is its relation to thermal and mass transport, electromagnetism, and chemical reactions. Fundamental research that applies the concepts of physics and elements of applied mathematical science is of particular interest. Original research contributions will appear as either full research papers or research notes. Well-documented historical essays and reviews also are welcomed. Materials that will prove effective in teaching will appear as classroom notes. Computational and/or experimental investigations that emphasize relationships to the modeling of the novel physical behavior of solids at all scales are of interest. Guidance principles for content are to be found in the current interests of the Editorial Board.

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