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Numerical Simulation and Experimental Model-Validation for Fiber-Reinforced Plastics Under Impact Loading - Using the Example of Ultra-High Molecular Weight Polyethylene

机译：冲击载荷下纤维增强塑料的数值模拟与实验模型验证 - 使用超高分子量聚乙烯的实施例

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In the security sector, the partly insufficient safety of people and equipment due to failure of industrial components are ongoing problems that cause great concern. Since computers and software have spread into all fields of industry, extensive efforts are currently made in order to improve the safety by applying certain numerical solutions. This work presents a set of numerical simulations of ballistic tests which analyze the effects of composite armor plates. The goal is to improve fiber-reinforced plastics in order to be able to cope with current challenges. Of course, the maximization of security is the primary goal, but keeping down the costs is becoming increasingly important. This is why numerical simulations are more frequently applied than experimental tests which are thus being replaced gradually.

机译：在安全部门，由于工业部件故障导致的人和设备的部分不足是持续的问题，导致极大的关注。由于计算机和软件蔓延到所有行业领域，目前正在进行广泛的努力，以通过应用某些数值解决方案来提高安全性。这项工作提出了一系列的弹道试验数值模拟，其分析了复合甲板的效果。目标是改善纤维增强塑料，以便能够应对当前的挑战。当然，安全的最大化是主要目标，但不断降低成本变得越来越重要。这就是为什么数值模拟更频繁地应用于因此逐渐被替换的实验测试。

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《International Conference on Advances in System Simulation》|2016年|90p|共9页
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作者
Arash Ramezani; Hendrik Rothe;
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中图分类 TP391.9-53;
关键词
Solver technologies; Simulation models; Fiber reinforced plastics; Optimization; Armor systems;

机译：求解器技术;仿真模型;纤维增强塑料;优化;装甲系统;

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专利

1. Numerical simulations on fatigue destruction of ultra-high molecular weight polyethylene using discrete element analyses [J] . Nobuyuki Shibata, Naohide Tomita, Ken Ikeuchi Journal of biomedical materials research. Part B, Applied biomaterials. . 2003,第3期

机译：超高分子量聚乙烯疲劳破坏的离散元数值模拟
2. A non-linear orthotropic hydrocode model for ultra-high molecular weight polyethylene in impact simulations [J] . Torsten Laessig, Long Nguyen, Michael May, International journal of impact engineering . 2015,第jana期

机译：冲击模拟中超高分子量聚乙烯的非线性正交各向异性液压编码模型
3. Experimental and numerical studies of the notch strengthening behaviour of semi-crystalline ultra-high molecular weight polyethylene [J] . H. Fouad Materials & design . 2010,第3期

机译：半结晶超高分子量聚乙烯缺口增强行为的实验和数值研究
4. Numerical Simulation and Experimental Model-Validation for Fiber-Reinforced Plastics Under Impact Loading - Using the Example of Ultra-High Molecular Weight Polyethylene [C] . Arash Ramezani, Hendrik Rothe International Conference on Advances in System Simulation . 2016

机译：纤维增强塑料下的数值模拟与实验模型验证 - 使用超高分子量聚乙烯的实施例
5. Simulation of macroscopic surface damage mechanisms to ultra-high molecular weight polyethylene components in total knee replacement. [D] . Estupinan, Jaime Alberto. 2000

机译：模拟全膝关节置换中超高分子量聚乙烯组分的宏观表面损伤机理。
6. Experimental and Numerical Investigation of the Effect of Projectile Nose Shape on the Deformation and Energy Dissipation Mechanisms of the Ultra-High Molecular Weight Polyethylene (UHMWPE) Composite [O] . Yonghua Shen, Yangwei Wang, Zhaopu Yan, 2021

机译：射弹鼻形状对超高分子量聚乙烯（UHMWPE）复合材料变形和能量耗散机理的实验和数值研究
7. Numerical Modelling of Ultra-High Molecular Weight Polyethylene Composite under Impact Loading [O] . Nguyen Long H., Lässig Torsten R., Ryan Shannon, 2015

机译：冲击载荷下超高分子量聚乙烯复合材料的数值模拟
8. Ballistic Material Model for Cross-Plied Unidirectional Ultra-High Molecular-Weight Polyethylene Fiber-Reinforced Armor-Grade Composites. [R] . Grujicic, M., Arakere, G., He, T., 2008

机译：交叉合股单向超高分子量聚乙烯纤维增强装甲级复合材料的弹道材料模型。

Numerical Simulation and Experimental Model-Validation for Fiber-Reinforced Plastics Under Impact Loading - Using the Example of Ultra-High Molecular Weight Polyethylene

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