Interface defeat studies of long-rod projectile impacting on ceramic targets

The interface defeat phenomenon always occurs when a long-rod projectile impacting on the ceramic target with certain velocity, i.e., the projectile is forced to flow radially on the surface of ceramic plates for a period of time without significant penetration. Interface defeat has a direct effect upon the ballistic performance of the armor piercing projectile, which is studied numerically and theoretically at present. Firstly, by modeling the projectiles and ceramic targets with the SPH (Smoothed Particle Hydrodynamics) particles and Lagrange finite elements, the systematic numerical simulations on interface defeat are performed with the commercial finite element program AUTODYN. Three different responses, i.e., complete interface defeat, dwell and direct penetration, are reproduced in different types of ceramic targets (bare, buffered, radially confined and oblique). Furthermore, by adopting the validated numerical algorithms, constitutive models and the corresponding material parameters, the influences of projectile (material, diameter, nose shape), constitutive models of ceramic (JH-1 and JH-2 models), buffer and cover plate (thickness, constraints, material), as well as the prestress acted on the target (radial and hydrostatic) on the interface defeat (transition velocity and dwell time) are systematically investigated. Finally, based on the energy conservation approach and taking the strain rate effect of ceramic material into account, a modified model for predicting the upper limit of transition velocity is proposed and validated. The present work and derived conclusions can provide helpful reference for the design and optimization of both the long-rod projectile and ceramic armor.     

无陀螺捷联惯导系统角速度解算方法研究

传统的捷联惯导系统通常用陀螺仪测量载体的角速度,无陀螺捷联惯导系统用加速度计代替陀螺仪,从加速度计输出的比力中解算载体的角速度,角速度的解算精度决定了无陀螺捷联惯导系统的性能及能否在实际中得到应用。分析了一种12加速度计配置方式的无陀螺捷联惯导系统的角速度解算方法,并将卡尔曼滤波技术应用于角速度解算,提高了角速度求解精度。     

Shaped charge penetration into high- and ultrahigh-strength Steel–Fiber reactive powder concrete targets

Experiments on shaped charge penetration into high and ultrahigh strength steel-fiber reactive powder concrete (RPC) targets were performed in this paper. Results show that the variation of penetration depth and crater diameter with concrete strength is different from that of shaped charge penetration into normal strength concrete (NSC). The crater diameter of RPC is smaller than that of NSC penetrated by the shaped charge. The jet particles are strongly disturbed and hardly reach the crater bottom because they pass through the narrow channel formed by jet penetration into the RPC. The effects of radial drift velocity and gap effects of jet particles for a shaped charge penetration into RPC target are discussed. Moreover, a theoretical model is presented to describe the penetration of shaped charge into RPC target. As the concrete strength increases, the penetration resistance increases and the entrance crater diameter decreases. Given the drift velocity and narrow crater channel, the low-velocity jet particles can hardly reach the crater bottom to increase the penetration depth. Moreover, the narrow channel has a stronger interference to the jet particles with increasing concrete strength; hence, the gap effects must be considered. The drift velocity and gap effects, which are the same as penetration resistance, also have significant effects during the process of shaped charge penetration into ultrahigh-strength concrete. The crater profiles are calculated through a theoretical model, and the results are in good agreement with the experiments.     

机动管线河流水面铺设牵引力分析与计算

机动管线在穿越河流时常采用水面浮运的方式铺设到对岸,铺设过程中,准确计算管线所受拉力是可靠地设计穿越装备、管线安全施工及运行的关键。建立了水面浮运的数学模型,得出了受力面积的选取方法,利用积分法导出了管线两端拉力的计算公式,指出了影响拉力的因素。采用3种流速方式分别计算出管线两端的拉力并进行了比较,采用符合实际情况的水面流速函数计算出的结果比较合适,对铺设设备的选取提供了理论支撑,对管线铺设有一定的参考价值。     

理想气体绝热过程的微观实质

从分子动理论出发,建立理想气体绝热过程的微观模型,用麦克斯韦速度分布函数导出其过程方程.     

空气阻力对排球正面上手发球水平方向飞行距离的影响实验分析

该文以体院排球普修课男生为对象,通过高速摄影方法,对"空气阻力对正面上手发球水平方向飞行距离的影响"这一问题进行了实验研究.初步揭示了当击球高度,击球角度和击球初速度等条件一定的情况下同,正面上手发球在水平方向飞行的理论距离与实际距离的差值规律.     

基于速度障碍的无人机避免机动障碍物问题

针对无人机避免机动障碍物的问题,应用速度障碍法,在充分考虑障碍物可达范围和无人机最大机动能力的基础上,将问题空间转换到了速度空间,然后以速度障碍的边界条件替代速度障碍的整体范围约束,这样得到了速度障碍的简单表达形式。最后结合最优控制,在速度空间解决了无人机避免障碍物的问题,并直接求解出了合适的速度输出。仿真结果表明方法切实可行。     

鱼雷攻击占位相关参数计算

讨论了鱼雷攻击占位机动过程中,最小占位速度和最短占位时间的计算问题,采用数值计算分析方法,得出了各种不同敌我初始态势和相对运动速度下对应最短占位时间的占位点的分布规律,推导出最小占位速度和最短占位时间的计算公式。     

碳化硼基3DMC材料抗弹性能的初步探讨

通过7.62穿甲燃烧弹的射击考核,分析了碳化硼基3DMC材料的抗弹性能,发现其综合抗弹性能优于等厚度的某型号装甲钢,并具有抗击连续打击的能力,认为该材料可以独立用于装甲防护。