A three-dimensional constitutive model for the large stretch behavior of rubber elastic materials

天然橡胶 材料科学 本构方程 复合材料 纯剪切 橡胶弹性 链条(单位) 模数 变形(气象学) 单剪 剪切(地质) 有限元法 机械 结构工程 物理 工程类 天文
作者
Ellen M. Arruda,Mary C. Boyce
出处
期刊:Journal of The Mechanics and Physics of Solids [Elsevier BV]
卷期号:41 (2): 389-412 被引量:3113
标识
DOI:10.1016/0022-5096(93)90013-6
摘要

Aconstitutive model is proposed for the deformation of rubber materials which is shown to represent successfully the response of these materials in uniaxial extension, biaxial extension, uniaxial compression, plane strain compression and pure shear. The developed constitutive relation is based on an eight chain representation of the underlying macromolecular network structure of the rubber and the non-Gaussian behavior of the individual chains in the proposed network. The eight chain model accurately captures the cooperative nature of network deformation while requiring only two material parameters, an initial modulus and a limiting chain extensibility. Since these two parameters are mechanistically linked to the physics of molecular chain orientation involved in the deformation of rubber, the proposed model represents a simple and accurate constitutive model of rubber deformation. The chain extension in this network model reduces to a function of the root-mean-square of the principal applied stretches as a result of effectively sampling eight orientations of principal stretch space. The results of the proposed eight chain model as well as those of several prominent models are compared with experimental data of Treloar (1944, Trans. Faraday Soc. 40, 59) illustrating the superiority, simplicity and predictive ability of the proposed model. Additionally, a new set of experiments which captures the state of deformation dependence of rubber is described and conducted on three rubber materials. The eight chain model is found to model and predict accurately the behavior of the three tested materials further confirming its superiority and effectiveness over earlier models.
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