一种新型聚能战斗部对含水复合结构的毁伤OA
Damage of a New Shaped Warhead to Water-Containing Composite Structure
为提高聚能战斗部对含水复合结构的侵彻能力,设计了一种截锥-球缺组合罩,并通过数值模拟探究了其在水介质中的射流成型运动规律和对含水复合结构的毁伤性能.研究发现:在侵彻含水复合结构的过程中,相比于亚半球-球缺组合罩和U形-球缺组合罩,截锥-球缺组合罩形成的射流长度更大,射流头部速度更高,在水介质中形成的空腔通道、水介质径向扩展速度均最小,击穿后效靶板后的射流剩余动能以及射流剩余速度最大.利用数值模拟技术探究了截锥-球缺组合罩中截锥罩的锥角、高度、侧壁壁厚、顶壁壁厚等结构参数对射流形态及侵彻性能的影响,并对其进行了正交优化试验设计,结果表明:结构参数对射流侵彻性能的影响由大到小依次为截锥罩的锥角、高度、侧壁壁厚、顶壁壁厚;当锥角为 26°、高度为 22 mm、侧壁壁厚为4.0 mm、顶壁壁厚为 3.2 mm时,截锥-球缺组合罩的侵彻性能较优,穿透后效靶板时的射流剩余动能为 136.2 kJ.该研究对聚能型鱼雷战斗部的设计以及提高鱼雷战斗部毁伤威力具有一定的参考价值.
In order to improve the penetration capability of the shaped charge warhead to the water-containing composite structure,a truncated cone-sphere combined liner was designed,and its jet forming motion law in the water medium and the damage performance to the water-containing composite structure were explored by numerical simulation.It is found that in the process of penetrating the water-containing composite structure,the truncated cone-sphere combined liner has a larger jet length and a higher jet head velocity compared with the sub-hemisphere-sphere combined liner and the U-shaped-sphere combined liner.It also has the smallest cavity channel formed in the water medium and the radial expansion velocity of the water medium and the largest residual kinetic energy and jet velocity after the penetrated target plate.The influence of structural parameters such as cone angle α,height h,side wall thickness a1 and top wall thickness a2 on the jet shape and penetration performance of the truncated cone-spherical combined liner was investigated by simulation,and a orthogonal optimization test was designed.It is found that the influence of these structural parameters on the jet penetration performance decreases in the order of:the cone angle α,height h,side wall thickness a1,and top wall thickness a2.When α=26°,h=22 mm,a1=4.0 mm,and a2=3.2 mm,the penetration performance of the truncated cone-sphere combined liner is superior,and the residual kinetic energy of the jet in penetrating the after-effect target is 136.2 kJ.This study provides a valuable reference for the design of shaped torpedo warhead and the improvement of torpedo warhead damage power.
崔贺;付建平;任凯;苗春壮;高小涛;李涛涛;冯雄波
中北大学机电工程学院,山西 太原 030051||中北大学地下目标毁伤技术国防重点学科实验室,山西 太原 030051中北大学地下目标毁伤技术国防重点学科实验室,山西 太原 030051中北大学地下目标毁伤技术国防重点学科实验室,山西 太原 030051晋西工业集团有限责任公司,山西 太原 030027晋西工业集团有限责任公司,山西 太原 030027山西江阳化工有限公司,山西 太原 030041山西江阳化工有限公司,山西 太原 030041
数理科学
聚能装药水下侵彻组合药型罩含水复合结构
shaped chargeunderwater penetrationcombined linerwater-containing composite structure
《高压物理学报》 2026 (2)
45-58,14
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