Computing the stresses and deformations of the human eye components due to a high explosive detonation using fluid-structure interaction model

Karimi Alireza; Razaghi Reza; Navidbakhsh Mahdi; Sera Toshihiro; Kudo Susumu

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Computing the stresses and deformations of the human eye components due to a high explosive detonation using fluid-structure interaction model

机译：使用流固耦合模型计算由于高爆炸力引起的人眼组件的应力和变形

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Introduction: In spite the fact that a very small human body surface area is comprised by the eye, its wounds due to detonation have recently been dramatically amplified. Although many efforts have been devoted to measure injury of the globe, there is still a lack of knowledge on the injury mechanism due to Primary Blast Wave (PBW). The goal of this study was to determine the stresses and deformations of the human eye components, including the cornea, aqueous, iris, ciliary body, lens, vitreous, retina, sclera, optic nerve, and muscles, attributed to PBW induced by trinitrotoluene (TNT) explosion via a Lagrangian-Eulerian computational coupling model.

机译：简介：尽管眼睛只占很小的人体表面积，但最近由于爆炸引起的伤口却被大大放大了。尽管已经进行了许多努力来测量地球仪的伤害，但是由于初级爆炸波（PBW）造成的伤害机理仍然缺乏了解。这项研究的目的是确定归因于三硝基甲苯（PBW）引起的PBW的人眼成分（包括角膜，房水，虹膜，睫状体，晶状体，玻璃体，视网膜，巩膜，视神经和肌肉）的应力和变形。 TNT）爆炸通过拉格朗日-欧拉计算耦合模型进行。

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来源
《Injury》 |2016年第5期|共9页
作者
Karimi Alireza; Razaghi Reza; Navidbakhsh Mahdi; Sera Toshihiro; Kudo Susumu;
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正文语种 eng
中图分类创伤外科学;
关键词
Human eye; Detonation; Dynamic finite element; Injury; Fluid-structure interaction; Finite element modelling;

机译：人眼;爆轰;动态有限元;损伤;流体-结构相互作用;有限元建模;

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1. Computing the stresses and deformations of the human eye components due to a high explosive detonation using fluid-structure interaction model [J] . Karimi Alireza, Razaghi Reza, Navidbakhsh Mahdi, Injury . 2016,第5期

机译：使用流固耦合模型计算由于高爆炸力引起的人眼组件的应力和变形
2. A smoothed particle element method (SPEM) for modeling fluid-structure interaction problems with large fluid deformations [J] . Zhang Z. L., Long T., Chang J. Z., Computer Methods in Applied Mechanics and Engineering . 2019,第Nova1期

机译：用于对大流体变形的流固耦合问题建模的平滑粒子元方法（SPEM）
3. A smoothed particle element method (SPEM) for modeling fluid-structure interaction problems with large fluid deformations [J] . Zhang Z. L., Long T., Chang J. Z., Computer Methods in Applied Mechanics and Engineering . 2019,第NOVa1期

机译：用于对大流体变形的流固耦合问题建模的平滑粒子元方法（SPEM）
4. Numerical Study of Fluid-Structure Interaction Dynamics under High-explosive Detonation on Massively Parallel Computers [C] . Sen Zhang, Xiao-Wei Guo, Chao Li, International Conference on High Performance Computing and Communications;International Conference on Smart City;IEEE International Conference on Data Science and Systems . 2020

机译：大型平行电脑高爆炸爆炸下流体结构交互动力学的数值研究
5. Fluid-Structure Interaction Modeling of Epithelial Cell Deformation during Microbubble Flows in Compliant Airways [D] . Chen, Xiaodong. 2012

机译：顺应性气道微泡流动过程中上皮细胞变形的流固耦合模型
6. Intraplaque hemorrhage is associated with higher structural stresses in human atherosclerotic plaques: an in vivo MRI-based 3d fluid-structure interaction study [O] . Xueying Huang, Zhongzhao Teng, Gador Canton, 2010

机译：斑块内出血与人类动脉粥样硬化斑块中较高的结构应力相关：一项基于体内MRI的3d流体-结构相互作用研究
7. Assessment of calcified aortic valve leaflet deformations and blood flow dynamics using fluid-structure interaction modeling [O] . Amindari, Armin, Saltik, Levent, Kirkkopru, Kadir, 2017

机译：使用流固耦合模型评估主动脉瓣钙化变形和血流动力学
8. Development of an Anatomically Accurate Finite Element Human Ocular Globe Model for Blast-Related Fluid-Structure Interaction Studies. [R] . Thompson, K. A., Bhardwaj, R., Nguyen, T. D. 2017

机译：爆破相关流固耦合研究的解剖学精确有限元人眼球模型的研制。

Computing the stresses and deformations of the human eye components due to a high explosive detonation using fluid-structure interaction model

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