使用分层壳近似法对二尖瓣叶组织进行有限元建模。
Finite element modeling of mitral leaflet tissue using a layered shell approximation.
机构信息
Department of Mechanical Engineering, University of Kentucky, Lexington, KY 40506-0503, USA.
出版信息
Med Biol Eng Comput. 2012 Oct;50(10):1071-9. doi: 10.1007/s11517-012-0952-2. Epub 2012 Sep 13.
Abstract
The current study presents a finite element model of mitral leaflet tissue, which incorporates the anisotropic material response and approximates the layered structure. First, continuum mechanics and the theory of layered composites are used to develop an analytical representation of membrane stress in the leaflet material. This is done with an existing anisotropic constitutive law from literature. Then, the concept is implemented in a finite element (FE) model by overlapping and merging two layers of transversely isotropic membrane elements in LS-DYNA, which homogenizes the response. The FE model is then used to simulate various biaxial extension tests and out-of-plane pressure loading. Both the analytical and FE model show good agreement with experimental biaxial extension data, and show good mutual agreement. This confirms that the layered composite approximation presented in the current study is able to capture the exponential stiffening seen in both the circumferential and radial directions of mitral leaflets.
摘要
本研究提出了一个二尖瓣叶组织的有限元模型,该模型包含各向异性材料响应并近似分层结构。首先,利用连续介质力学和层合复合材料理论,对瓣叶材料中的膜应力进行了分析表示。这是通过使用文献中的现有各向异性本构定律来完成的。然后,通过在 LS-DYNA 中重叠和合并两层横观各向同性膜单元,将该概念应用于有限元(FE)模型中,从而使响应均匀化。然后使用 FE 模型模拟各种双轴拉伸试验和平面外压力加载。分析模型和 FE 模型都与实验双轴拉伸数据吻合良好,并且相互吻合良好。这证实了本研究中提出的分层复合材料近似能够捕捉到二尖瓣叶在圆周和径向方向上的指数增强现象。
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