Anisotropic Constitutive Modeling of Compressible Biological Tissue

IF 0.5 Q3 MATHEMATICS Advances in Pure and Applied Mathematics Pub Date : 2022-01-01 DOI:10.4236/apm.2022.125027
F. Zhao
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引用次数: 0

Abstract

The anisotropic continuum stored energy density (ACSED) functional is applied for accurate constitutive modeling of biological tissues and finite element implementation without the isochoric—volumetric split, the anisotropic—isotropic split, or the anisotropic invariant split. Related stress and elasticity tensors in the reference and current configurations are worked out. A new kinematic model is derived based on the tangent Poisson’s ratio as a cubic polynomial function of stretch. The ACSED model, along with the kinematic model, accurately fits uniaxial extension test data for compressible human skin, bovine articular cartilage, and human aorta samples.
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可压缩生物组织的各向异性本构模型
将各向异性连续能量密度(ACSED)泛函用于生物组织的精确本构建模和有限元实现,而不需要各向异性-体积分裂、各向异性-各向同性分裂或各向异性不变分裂。计算了参考结构和当前结构的相关应力张量和弹性张量。将正切泊松比作为拉伸的三次多项式函数,导出了一种新的运动学模型。ACSED模型与运动学模型能够准确拟合可压缩人体皮肤、牛关节软骨和人体主动脉样本的单轴拉伸试验数据。
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来源期刊
Advances in Pure and Applied Mathematics
Advances in Pure and Applied Mathematics MATHEMATICS-
CiteScore
0.70
自引率
0.00%
发文量
12
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