A finite shell element for heart mitral valve leaflet mechanics, with large deformations and 3D constitutive material model.

Weinberg EJ; Kaazempur-Mofrad MR

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A finite shell element for heart mitral valve leaflet mechanics, with large deformations and 3D constitutive material model.

机译：用于心脏二尖瓣小叶力学的有限壳单元，具有大变形和3D本构材料模型。

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This paper presents a shell finite element formulation appropriate for simulating the heart valve leaflet mechanics, including three-dimensional (3D) stress and strain effects. A 4-node mixed-interpolation shell is formulated in convected coordinates. This shell model is made capable of handling arbitrary 3D material models by use of an algorithm that satisfies the shell stress assumption at every element integration point. A method for tracking the fiber direction is incorporated. The resulting shell element operates under the same conditions as a standard 4-node shell element with 5 degrees of freedom per node, but extends the modeling capabilities to handle large-deformation and anisotropic behavior.

机译：本文提出了一种壳有限元公式，适用于模拟心脏瓣膜小叶力学，包括三维（3D）应力和应变效应。在对流坐标中制定了一个4节点混合插值壳。通过使用满足每个元素集成点处的壳应力假设的算法，使此壳模型能够处理任意3D材料模型。包含了一种跟踪纤维方向的方法。所得的壳单元在与标准4节点壳单元相同的条件下运行，每个节点具有5个自由度，但扩展了建模功能以处理大变形和各向异性行为。

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来源
《Journal of Biomechanics》 |2007年第3期|共7页
作者
Weinberg EJ; Kaazempur-Mofrad MR;
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正文语种 eng
中图分类医用一般科学;生物力学;
关键词
Elements; Materials; Models; Stress; Mitral Valve; 元素; 应激; 二尖瓣;

机译：Elements;Materials;Models;Stress;Mitral Valve;元素;应激;二尖瓣;

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1. A finite shell element for heart mitral valve leaflet mechanics, with large deformations and 3D constitutive material model. [J] . Weinberg EJ, Kaazempur-Mofrad MR Journal of Biomechanics . 2007,第3期

机译：用于心脏二尖瓣小叶力学的有限壳单元，具有大变形和3D本构材料模型。
2. On the performance of enhanced strain finite elements in large strain deformations of elastic shells: Comparison of two classes of constitutive models for rubber materials [J] . Carlo Sansour, Stefanie Feih, Werner Wagner Engineering Computations . 2003,第7a8期

机译：关于弹性壳大应变变形中增强应变有限元的性能：橡胶材料两类本构模型的比较
3. A large-strain finite element formulation for biological tissues with application to mitral valve leaflet tissue mechanics [J] . Weinberg EJ, Kaazempur-Mofrad MR Journal of Biomechanics . 2006,第8期

机译：用于生物组织的大应变有限元配方及其在二尖瓣小叶组织力学中的应用
4. A HIGH FIDELITY, MICRO-STRUCTURAL ANATOMICALLY ACCURATE 3D FINITE ELEMENT MODEL FOR FUNCTIONING HEART MITRAL VALVE [C] . Chung-Hao Lee, Pim J.A. Oomen, Jean Pierre Rabbah, ASME bioengineering conference . 2014

机译：高功能，微结构和精确的3D有限元模型，用于功能性心脏瓣膜功能
5. Dynamic finite element analysis of bioprosthetic heart valves with an experimentally derived material model. [D] . Kim, Hyunggun. 2005

机译：使用人工衍生的材料模型对生物人工心脏瓣膜进行动态有限元分析。
6. Material properties of the ovine mitral valve anterior leaflet in vivo from inverse finite element analysis [O] . Gaurav Krishnamurthy, Daniel B. Ennis, Akinobu Itoh, -1

机译：逆向有限元分析的羊二尖瓣前小叶的体内材料特性
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A finite shell element for heart mitral valve leaflet mechanics, with large deformations and 3D constitutive material model.

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