Biomechanical analysis of the shooter-weapon system oscillation

机译：射击武器系统振荡的生物力学分析

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The paper deals with analysis of shooter - weapon system oscillation when firing from a biomechanical point of view. The biomechanical model of shooter arms is developed by taking the muscles and tendons forces into consideration. Linking between shooter and the weapon is treated as elastic and viscose damping. The dynamic model developed for a gas operated submachine gun by applying Lagrange equation of motion has thirteen degrees of freedom. The shooter arms joint stiffness and damping coefficients are experimentally determined. The problem is numerically solved and experimentally verified for the 7.62 mm AKM. The method is able to analyze the shooter - weapon system parameters affecting the gas operated weapon firing stability.

机译：从生物力学的角度射击时，本文涉及射击武器系统振荡的分析。射击臂的生物力学模型是通过服用肌肉和肌腱势力而开发的。射击和武器之间的连接被视为弹性和粘胶阻尼。通过施加拉格朗日的运动方式为气体操作的冲锋枪开发的动态模型具有十三个自由度。实验确定射击臂关节刚度和阻尼系数。该问题在数值上解决和实验验证了7.62毫米AKM。该方法能够分析影响气体武器烧制稳定性的射击武器系统参数。

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来源
《International Conference on Military Technologies》|2017年|792p|共6页
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作者
Dung Nguyen Thai; Dung Nguyen Van; Phuc Ta Van; Linh Do Duc;
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原文格式 PDF
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中图分类 E9-53;
关键词
Weapons; Muscles; Joints; Biological system modeling; Mathematical model; Shoulder; Biomechanics;

机译：武器;肌肉;关节;生物系统建模;数学模型;肩部;生物力学;

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Biomechanical analysis of the shooter-weapon system oscillation

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