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Mathematical Modelling, Simulation and Experimental Testing of Biomechanical System Crash Response.

机译：生物力学系统碰撞响应的数学建模，仿真与实验测试。

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摘要

A review of mathematical models simulating biodynamic response to impact acceleration is given along with the associated experimental validation studies that have been performed. The types of models surveyed include gross motion simulators, head injury models, and spinal and thoracic models. Sufficient details are provided to indicate to potential users their applicability and relative cost.

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作者
King, A. I.; Chou, C. C.;
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年度 1975
页码 1-21
总页数 21
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Biomechanics; Impact acceleration; Biodynamics; Mathematical models; Force(Mechanics); Simulation; Response(Biology); Human body; Crashes; Costs; Reviews; Wounds and injuries; Head(Anatomy); Spinal cord; Thorax; Collision research;

机译：生物力学;冲击加速度;生物动力学;数学模型;力（力学）;模拟;反应（生物学）;人体;崩溃;成本;评论;伤口和伤害;头部（解剖学）;脊髓;胸部;碰撞研究;

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1. Numerical Modelling and Simulation of Road Crash Tests with the use of Advanced CAD/CAE Systems / Modelowanie Numeryczne I Symulacja Drogowych Testów Zderzeniowych Z Wykorzystaniem Zaawansowanych Systemów CAD/CAE [J] . Dr hab. inz Wies?aw Barnat prof. WAT, Dr in?. Pawe? Dziewulski, Dr n.t. Andrzej Kiczko, Journal of KONBiN . 2013,第1期

机译：使用高级CAD / CAE系统进行道路碰撞试验的数值建模和仿真/使用高级CAD / CAE系统进行道路碰撞试验的数值建模和仿真
2. Mathematical Modelling and Simulation of Car Crash Test [J] . Abhinav Athalye, H. G. Phakatkar, U. S. Chavan, International journal of advanced mechanical engineering . 2018,第1期

机译：数学建模与船舶碰撞试验的仿真
3. Future of crash dummies and biomechanical mathematical models [J] . Jac Wismans ATA Ingeneria Automatoristica . 2000,第3a4期

机译：碰撞假人和生物力学数学模型的未来
4. Comparison and Realism of Crash Simulation Tests and Real Accident Situations for the Biomechanical Movements in Car Collisions [C] . Dietmar Otte Stapp Car Crash Conference . 2009

机译：碰撞模拟试验的比较与现实事故情况下的汽车碰撞中的生物力学运动
5. Investigation of wavy interfacial morphology in magnetic pulsed welding: Mathematical modeling, numerical simulations and experimental tests [D] . Nassiri, Ali 2015

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6. Mathematical modeling and experimental testing of three bioreactor configurations based on windkessel models [O] . Jean Ruel, Geneviève Lachance 2010

机译：基于Windkessel模型的三种生物反应器配置的数学建模和实验测试
7. The thermodynamic changes that occur upon mixing five models of formamide and three models of water, including the miscibility of these model combinations itself, is studied by performing Monte Carlo computer simulations using an appropriately chosen thermodynamic cycle and the method of thermodynamic integration. The results show that the mixing of these two components is close to the ideal mixing, as both the energy and entropy of mixing turn out to be rather close to the ideal term in the entire composition range. Concerning the energy of mixing, the OPLS/AA-mod model of formamide behaves in a qualitatively different way than the other models considered. Thus, this model results in negative, while the other ones in positive energy of mixing values in combination with all three water models considered. Experimental data supports this latter behavior. Although the Helmholtz free energy of mixing always turns out to be negative in the entire composition range, the majority of the model combinations tested either show limited miscibility, or, at least, approach the miscibility limit very closely in certain compositions. Concerning both the miscibility and the energy of mixing of these model combinations, we recommend the use of the combination of the CHARMM formamide and TIP4P water models in simulations of water-formamide mixtures. [O] . Kiss, Bálint, Fábián, Balázs, Idrissi, Abdenacer, 2017

机译：通过使用适当选择的热力学循环和热力学积分方法进行蒙特卡罗计算机模拟，研究了将五种甲酰胺模型和三种水模型混合在一起时发生的热力学变化，包括这些模型组合本身的可混溶性。结果表明这两种组分的混合接近于理想的混合，因为混合的能量和熵在整个组成范围内都非常接近理想的项。关于混合的能量，甲酰胺的OPLS / AA-mod模型与其他模型相比，在质量上有不同的表现。因此，该模型得出的结果是负的，而其他模型则综合考虑了所有三个水模型的结果的正能量。实验数据支持后一种行为。尽管混合的亥姆霍兹自由能在整个组成范围内始终为负，但大多数测试模型组合显示出有限的混溶性，或至少非常接近某些组合物的混溶性极限。关于这些模型组合的可混溶性和混合能量，我们建议在水-甲酰胺混合物的模拟中使用CHARMM甲酰胺和TIP4P水模型的组合。

Mathematical Modelling, Simulation and Experimental Testing of Biomechanical System Crash Response.

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