弯管血管壁本构方程的理论研究
A Theoretical Approach to Constitutive Equations of Curved Blood Vessels
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摘要: 在已有的直管动脉壁本构方程研究基础上,提出一个理论方法来分析弯曲动脉壁的非线性弹性力学性质,在弯曲动脉壁被模拟为局部三重正交、横向同性、不可压缩和可经受大变形的厚壁材料下,作者从理论上建立了一个表达弯管动脉壁非线性弹性性质的三维e指数型本构方程.另外文中还进一步探讨了弯曲动脉壁内的残余应变分析.本文听取得的这些成果,可为血流脉搏波沿弯曲动脉传播的数值分析以及弯曲血管壁本构方程的研究和残余应变和残余应力的分析奠定理论基础.Abstract: A theoretical method for the analysis of the nonlinear elastic characteristics of curved blood vessels is presented. The curved blood vessels are modeled to be a circularly toroidal, incompressible, and elastic thick-walled tube with anisotropy and local triclinicity. On these assumptions, the deformations and strains of curved vessel walls are analyzed in detail, and a pseudo-strain energy function of 3-d exponential type is introduced to establish the constitutive relationships of nonlinear elasticity of curved vessel walls. The residual stresses and strains of curved vessel walls are studied. The way to generalize the constitutive equations obtained to involve residual stresses and strains is also discussed. These results can serve as the theoretical bases for the establishment of constitutive equations and the analysis of residual stresses and strains of curved vessel walls, as well as the numerical study of pulse wave propagation in curved blood vessels.