关键词: 帘线/橡胶复合材料;剪切应变能;连续性介质力学;粒子分离器;各向异性超弹性本构

Abstract: To predict the mechanical behavior of a cross section variable geometry particle separator and obtain the deformation characteristic model of the flexible cord / rubber composite structure, a constitutive model of rubber compound material with the shear strain energy of cord / rubber is established on the basis of theory of continuous medium mechanics. Furthermore, the subprograms involving the constitutive of anisotropic hyper-elastic materials are compiled using the UANISOHYPER_INV interface of ABAQUS, then, an effective prediction method for deformation behavior of cord / rubber composites is formed. Combining with the Mooney—Rivilin constitutive model, the experimental data of rubber were processed through the larger deformation and incompressible method. The parameters of rubber materials including C₁₀=-0.27MPa and C₀₁=1.12MPa are obtained utilising the least square method to fit the uniaxial tensile test data. The superelastic constitutive models of the cord/rubber composites are proposed on the basis of the rubber superelastic constitutive model, then the parameters of the cord and the shear strain energy are fitted by the uniaxial tensile test data in the constitutive model. The hyperelastic constitutive models of cord / rubber composites are verified through uniaxial tensile tests. It is found that the tensile deformation amount is controlled within 20% and the proposed model is in good agreement with the experimental data, which demonstrated the high-accuracy of the established constitutive model, particularly, it can lay a theoretical foundation of the finite element analysis (FEA) for the particle separator's deformable bump.

Key words: Cord/rubber composite;Shear strain energy;Continuous medium mechanics;Particle separator;Anisotropic hyperelastic constitution