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21.
《防务技术》2020,16(1):119-135
The behind-armor debris (BAD) formed by the perforation of an EFP is the main damage factor for the secondary destruction to the behind-armor components. Aiming at investigating the BAD caused by EFP, flash X-ray radiography combined with an experimental witness plate test method was used, and the FEM-SPH adaptive conversion algorithm in LS-DYNA software was employed to model the perforation process. The simulation results of the debris cloud shape and number of debris were in good agreement with the flash X-ray radiographs and perforated holes on the witness plate, respectively. Three-dimensional numerical simulations of EFP's penetration under various impact conditions were conducted. The results show that, an ellipsoidal debris cloud, with the major-to-minor axis radio (a/b) smaller than that caused by shaped charge jets, was formed behind the target. With the increase of target thickness (h) and decrease of impact velocity (v0) and obliquity (θ), the value of a/b decreases. The number of debris ejected from target is significantly higher than that from EFP. Based on the statistical analysis of the spatial distribution of the BAD, An engineering calculation model was established considering the influence of h, v0 and θ. The model can with reasonable accuracy predict the quantity and velocity distribution characteristics of BAD formed by EFP. 相似文献
22.
针对雷达波束篱笆空间碎片探测模式,提出了一种估计碎片数量置信区间的方法.对于给定的轨道高度范围,将轨道倾角和雷达散射截面足够大的碎片是否真正穿越波束篱笆这一事件用(0-1)分布来建模,根据所获取的轨道高度数据,得到该轨道高度范围内碎片穿越波束篱笆的平均概率,进而采用中心极限定理估计出该范围内碎片总数量的置信区间.仿真实验验证了方法的有效性. 相似文献
23.
采用大型动力学软件Ls-dyna中的SPH求解器,对球形弹丸超高速碰撞靶板的过程进行数值模拟。给出由于碰撞速度不同,而引起的不同的碎片云图像,以及不同的靶板破碎孔的尺寸。同时模拟了入射角度不同,而得到不同的超高速碰撞物理过程。初步分析结果表明数值模拟结果是合理的,较清晰地模拟了超高速碰撞下碎片云的生成、膨胀过程。另外,通过数值模拟结果与实验结果的比较分析,表明SPH方法得到的结果能描述相应的超高速碰撞现象。所以采用SPH算法针对超高速碰撞物理过程进行数值模拟是可行的。 相似文献