Development of a geometrically accurate and adaptable finite element head model for impact simulation: the Naval Research Laboratory-Simpleware Head Model

Cotton R. T.; Pearce C. W.; Young P. G.; Kota N.; Leung A. C.; Bagchi A.; Qidwai S. M.

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Development of a geometrically accurate and adaptable finite element head model for impact simulation: the Naval Research Laboratory-Simpleware Head Model

机译：开发用于碰撞仿真的几何精确且适应性强的有限元头部模型：海军研究实验室-简单头部模型

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This study demonstrates a novel model generation methodology that addresses several limitations of conventional finite element head models (FEHM). By operating chiefly in image space, new structures can be incorporated or merged, and the mesh either decimated or refined both locally and globally. This methodology is employed in the development of a highly bio-fidelic FEHM from high-resolution scan data. The model is adaptable and presented here in a form optimised for impact and blast simulations. The accuracy and feasibility of the model are successfully demonstrated against a widely used experimental benchmark in impact loading and through the investigation of potential brain injury under blast overpressure loading.

机译：这项研究演示了一种新颖的模型生成方法，该方法解决了传统有限元头部模型（FEHM）的一些局限性。通过主要在图像空间中进行操作，可以合并或合并新的结构，并且可以在本地和全局范围内缩小或优化网格。此方法用于从高分辨率扫描数据开发高度生物理想的FEHM。该模型具有适应性，并以针对冲击和爆炸模拟进行了优化的形式在此处呈现。通过在冲击载荷下广泛使用的实验基准并通过研究爆炸超压载荷下潜在的脑损伤，成功地证明了该模型的准确性和可行性。

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来源
《Computer methods in biomechanics and biomedical engineering》 |2016年第4期|101-113|共13页
作者
Cotton R. T.; Pearce C. W.; Young P. G.; Kota N.; Leung A. C.; Bagchi A.; Qidwai S. M.;
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作者单位

Simpleware Ltd, Exeter EX4 3PL, Devon, England;

Simpleware Ltd, Exeter EX4 3PL, Devon, England;

Univ Exeter, Coll Engn Math & Phys Sci, Exeter, Devon, England;

Leidos Corp, MCET Dept, Arlington, VA USA;

US Naval Res Lab, Multifunct Mat Branch, Washington, DC USA;

US Naval Res Lab, Multifunct Mat Branch, Washington, DC USA;

US Naval Res Lab, Multifunct Mat Branch, Washington, DC USA;

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原文格式 PDF
正文语种 eng
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关键词
head impact; blast; traumatic brain injury; simulation; finite element; meshing;

机译：头部撞击;爆炸;颅脑外伤;模拟;有限元;啮合;

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2. The importance of nonlinear tissue modelling in finite element simulations of infant head impacts [J] . Li Xiaogai, Sandler Hakan, Kleiven Svein Biomechanics and modeling in mechanobiology . 2017,第3期

机译：非线性组织建模在婴幼儿撞击有限元模拟中的重要性
3. Development, validation, and application of a parametric pediatric head finite element model for impact simulations. [J] . Li Z, Hu J, Reed MP, Annals of Biomedical Engineering: The Journal of the Biomedical Engineering Society . 2011,第12期

机译：用于冲击仿真的参数化儿科头部有限元模型的开发，验证和应用。
4. Finite element modeling and development of the deformable featureless headform and its application to vehicle interior head impact testing [C] . Barbat Saeed D., Jeong Hyun-Yong, Prasad Priya P. SAE International Congress and Exposition . 1997

机译：有限元建模与开发可变形无特色头部及其在车辆内部头部冲击测试中的应用
5. THE DEVELOPMENT OF FINITE ELEMENT MODELING AND EXPERIMENTAL TECHNIQUES FOR DYNAMIC ANALYSIS OF READ/WRITE HEAD DESIGNS ON FLOPPY DISK MEDIA. [D] . GOOD, JAMES KEITH. 1983

机译：用于软盘介质读/写头设计动态分析的有限元建模和实验技术的发展。
6. The importance of nonlinear tissue modelling in finite element simulations of infant head impacts [O] . Xiaogai Li, Håkan Sandler, Svein Kleiven -1

机译：非线性组织建模在婴儿头部撞击有限元模拟中的重要性
7. Development of a geometrically accurate and adaptable finite element head model for impact simulation: the Naval Research Laboratory-Simpleware Head Model [O] . Cotton, R.T., Pearce, Christopher W., Young, Philippe G., 2015

机译：开发用于碰撞仿真的几何精确且适应性强的有限元头部模型：海军研究实验室-简单头部模型

Development of a geometrically accurate and adaptable finite element head model for impact simulation: the Naval Research Laboratory-Simpleware Head Model

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