FLUID-STRUCTURE INTERACTION IN FINITE ELEMENT MODELING OF TRAUMATIC AORTIC RUPTURE

机译：创伤性主动脉破裂有限元模拟中的流体结构相互作用

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Traumatic Aortic Rupture (TAR) during automobile crashes is one of the leading causes of fatality. In this study, the physical parameters and mechanisms of aortic rupture in dynamic pressure loading condition were investigated using different numerical approaches in a finite element model, including Eulerian, Arbitrary Lagrangian-Eulerian (ALE), and Smoothed Particle Hydrodynamics (SPH) formulations. The TAR models were compared against in vitro experiments and predicted the most probable location of rupture at the isthmus as indicated in the literature.

机译：汽车崩溃期间的创伤性主动脉裂纹（焦油）是致命的主要原因之一。在该研究中，在有限元模型中使用不同数值方法研究了动态压力负载条件中的主动脉破裂的物理参数和机制，包括欧拉，任意拉格朗日 - 欧拉（ALE）和平滑的粒子流体动力学（SPH）制剂。将TAR模型与体外实验进行比较，并预测了文献中所示的峡部中最可能的破裂位置。

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《ASME International Mechanical Engineering Congress and Exposition》|2004年||共2页
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Sang-Hyun Lee; Kurosh Darvish; Libor Lobovsky;
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中图分类 T-53;
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1. Immersed boundary-finite element model of fluid-structure interaction in the aortic root [J] . Flamini Vittoria, DeAnda Abe, Griffith Boyce E. Theoretical and Computational Fluid Dynamics . 2016,第1a2期

机译：主动脉根部流固耦合的浸入边界有限元模型
2. A finite element model of blunt traumatic aortic rupture. [J] . Richens D, Field M, Hashim S, European journal of cardio-thoracic surgery: Official journal of the European Association for Cardio-thoracic Surgery . 2004,第6期

机译：钝性外伤性主动脉破裂的有限元模型。
3. Modeling of fluid-structure interactions with the space-time finite elements: contact problems [J] . Sathe S, Tezduyar TE Computational Mechanics: Solids, Fluids, Fracture Transport Phenomena and Variational Methods . 2008,第1期

机译：与时空有限元的流固耦合建模：接触问题
4. FLUID-STRUCTURE INTERACTION IN FINITE ELEMENT MODELING OF TRAUMATIC AORTIC RUPTURE [C] . Sang-Hyun Lee, Kurosh Darvish, Libor Lobovsky BED-vol.56; American Society of Mechanical Engineers(ASME) International Mechanical Engineering Congress and Exposition; 20041113-19; Anaheim,CA(US) . 2004

机译：创伤性主动脉破裂的有限元建模中的流固耦合
5. Investigation of traumatic rupture of the aorta (TRA) by obtaining aorta material and failure properties and simulating real-world aortic injury crashes using the whole-body finite element (FE) human model. [D] . Shah, Chirag Sudhirbhai. 2007

机译：通过获取全身材料和有限元（FE）人体模型，获得主动脉的材料和破坏特性并模拟真实世界中的主动脉损伤崩溃，从而对主动脉的创伤性破裂（TRA）进行研究。
6. Finite Element Analysis of the Mechanism of Traumatic Aortic Rupture (TAR) [O] . JiFeng Nan, Mohammadreza Rezaei, Rashid Mazhar, 2020

机译：创伤性主动脉破裂机制的有限元分析（焦油）
7. Immersed boundary-finite element model of fluid-structure interaction in the aortic root [O] . Flamini, Vittoria, DeAnda, Abe, Griffith, Boyce E. 2015

机译：沉积物中流固耦合的边界 - 有限元模型主动脉根
8. Computer Code EURDYN - 1 M (Release 1) for Transient Dynamic Fluid-Structure Interaction. Pt.1: Governing Equations and Finite Element Modelling [R] . Donea, J., Fasoli-Stella, P., Giuliani, S., 1980

机译：计算机代码EURDYN - 1 m（第1版）用于瞬态动态流体 - 结构相互作用。 pt.1：控制方程和有限元建模

FLUID-STRUCTURE INTERACTION IN FINITE ELEMENT MODELING OF TRAUMATIC AORTIC RUPTURE

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