某9 mm手枪弹侵彻MDF的弹道特性

Ballistic characteristics of a 9 mm pistol bullet penetrating medium density fiberboard

为探究某9 mm手枪弹侵彻木质靶板的弹道特性,以中密度板(medium density fiberboard, MDF)为研究对象进行了弹道侵彻试验,通过减装药和角度可调节靶架获得了不同速度和弹着角下弹头的剩余速度和侵彻深度等关键信息;通过Poncelet阻力模型对试验结果进行了分析,并得出侵彻深度与侵彻速度之间的关系式;建立了手枪弹侵彻MDF的数值计算模型,对不同速度和不同弹着角的弹头偏转行为进行了研究,并得到了临界跳飞角度与着靶速度之间的函数关系。结果表明,弹头正侵彻25 mm厚度的MDF时,能量损失量与入射速度具有线性相关性;弹头侵入MDF时均会产生负方向偏转,弹头速度降低或者弹着角减小均会使负方向偏转角度增大,当弹头低速穿透MDF或者弹着角小于45°时,弹头侵彻MDF过程中会产生较大角度偏转,在射出MDF时出现弹道转正现象。

In order to explore the ballistic characteristics of a 9 mm pistol bullet penetrating wooden target board,a ballistic penetration experiment was carried out by choosing medium density fiberboard(MDF)as the research object.Key information such as the residual velocity and depth of penetration to the bullet at different velocities and impact angles was obtained by reducing the charge and adjusting the angle adjustable target frame.The experiment results were analyzed by the Poncelet resistance model,and the relationship between depth of penetration and penetration velocity was obtained.The numerical calculation model of the pistol bullet penetrating the MDF was established.The model studied the deflection behavior of bullet with different velocity and different impact angles,and the functional relationship between the critical ricochet angle and the target velocity was obtained.The results show that when the bullet penetrates the MDF with the thickness of 25 mm,the energy loss is linearly related to the incident velocity;when the bullet penetrates the MDF,it will deflect in the negative direction,and the reduction of the bullet velocity or the reduction of the impact angle will increase the deflection angle in the negative direction.When the bullet penetrates the MDF at a low velocity or the impact angle is less than 45°,the bullet shows a large deflection angle.When the bullet shoots out of the MDF,the trajectory turns positive.