Transversely isotropic membrane shells with application to mitral valve mechanics. Constitutive modelling and finite element implementation

Prot V; Skallerud B; Flolzapfel GA

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Transversely isotropic membrane shells with application to mitral valve mechanics. Constitutive modelling and finite element implementation

机译：横向各向同性膜壳在二尖瓣力学中的应用。本构模型与有限元实现

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The present study addresses constitutive modelling and implementation of transversely isotropic hyperelastic material models for the analysis of the mitral valve. This valve separates the left atrium and left ventricle in the heart. Two convex strain energy potentials are employed in derivation of stress tensors and elasticity tensors. The plane stress and incompressibility conditions are accounted for directly. The relationships are implemented in an implicit code (ABAQUS) via the user-defined interface. Numerical simulations of the valve motion during a part of the heart cycle are carried out and compared to ultrasound measurements of a healthy human valve. The significance of placement of chordae tendinae is illustrated. The implementation provides a tool for simulations of both healthy and pathological mitral valve conditions. Copyright (c) 2007 John Wiley & Sons, Ltd.

机译：本研究解决了用于二尖瓣分析的横观各向同性超弹性材料模型的本构模型和实现。该瓣膜将心脏的左心房和左心室分开。在推导应力张量和弹性张量时采用了两个凸形应变能势。平面应力和不可压缩条件直接考虑在内。通过用户定义的界面以隐式代码（ABAQUS）来实现关系。进行了一部分心动周期中瓣膜运动的数值模拟，并将其与健康人的瓣膜的超声测量结果进行了比较。说明了腱索位置的重要性。该实施方案提供了一种用于模拟健康和病理性二尖瓣状况的工具。版权所有（c）2007 John Wiley＆Sons，Ltd.

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来源
《International Journal for Numerical Methods in Engineering》 |2007年第8期|共22页
作者
Prot V; Skallerud B; Flolzapfel GA;
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正文语种 eng
中图分类工程基础科学;
关键词
hyperelasticity; transverse isotropy; membrane shells; biomechanics; mitral valve; ENERGY FUNCTIONS; FORMULATION; FRAMEWORK; TISSUES; REPAIR;

机译：超弹性;横向各向同性;膜壳;生物力学;二尖瓣;能量功能;配方;框架;组织;修复;

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1. Transversely isotropic membrane shells with application to mitral valve mechanics. Constitutive modelling and finite element implementation [J] . Prot V, Skallerud B, Flolzapfel GA International Journal for Numerical Methods in Engineering . 2007,第8期

机译：横向各向同性膜壳在二尖瓣力学中的应用。本构模型与有限元实现
2. A Simple Transversely Isotropic Hyperelastic Constitutive Model Suitable for Finite Element Analysis of Fiber Reinforced Elastomers [J] . Leslee W. Brown, Lorenzo M. Smith Journal of engineering materials and technology . 2011,第2期

机译：适用于纤维增强弹性体有限元分析的简单横观各向同性超弹性本构模型
3. Theory and finite element implementation of orthotropic and transversely isotropic incompressible hyperelastic membrane [J] . Jarraya Abdessalem, Imen Kammoun Kallel, Dammak Fakhreddine Multidiscipline modeling in materials and structures . 2011,第4期

机译：正交各向异性和横观各向同性不可压缩超弹性膜的理论和有限元实现
4. FLUID-STRUCTURE INTERACTION ANALYSIS OF COCHLEA IN A FINITE ELEMENT MODEL WITH TRANSVERSE ISOTROPIC BASILAR MEMBRANE [C] . Dooho Lee, Seong-Jung Kang International Congress on Sound and Vibration . 2017

机译：横向各向同性基底膜的有限元模型中耳蜗流体结构相互作用分析
5. A constitutive model and finite element representation for transversely isotropic soft tissues. [D] . Weiss, Jeffrey Arthur. 1994

机译：横向各向同性软组织的本构模型和有限元表示。
6. Functional Grading of a Transversely Isotropic Hyperelastic Model with Applications in Modeling Tricuspid and Mitral Valve Transition Regions [O] . Rajarshi Roy, Eric Warren Jr., Yaoyao Xu, 2020

机译：横向各向同性超弹性模型的功能分级与三尖瓣瓣膜瓣膜过渡区应用中的应用
7. Functional Grading of a Transversely Isotropic Hyperelastic Model with Applications in Modeling Tricuspid and Mitral Valve Transition Regions [O] . Rajarshi Roy, Eric Warren, Yaoyao Xu, 2020

机译：横向各向同性超弹性模型的功能分级与三尖瓣瓣膜瓣膜过渡区应用中的应用

Transversely isotropic membrane shells with application to mitral valve mechanics. Constitutive modelling and finite element implementation

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