摘要
针对目标易损性分析仿真评估的关键问题,以"性能降低程度"为依据,构建了主战坦克各功能子系统的功能毁伤树图;在弹药对目标毁伤作用原理分析的基础上,建立了典型反坦克弹药对目标毁伤的数学模型,利用VC++平台开发了主战坦克目标易损性分析与毁伤评估仿真系统。以穿甲弹为例进行了主战坦克毁伤评估,得到了主战坦克整体毁伤概率随打击速度、打击方位角等参数的变化规律。研究结果对主战坦克防护结构设计、反坦克弹药设计与威力提高等研究具有一定的指导意义。
Aiming to key problems of target vulnerability analysis simulation, according to decrease of measures of performance, functional sub-system damage trees were constructed. Through analyzing terminal damage mechanisms of typical anti-tank ammunition to the target, damage models were established. On the VC++ platform, it developed main-battle tank vulnerability analysis and damage assessment simulation system. Taking armour-piercing ammunition as example, the main battle tank damage assessment was done using above system. Research results are significant to main-battle-tank's defense structure design, anti-tank ammunition design and power increase.
出处
《弹箭与制导学报》
CSCD
北大核心
2009年第6期274-277,共4页
Journal of Projectiles,Rockets,Missiles and Guidance
关键词
目标易损性
主战坦克
毁伤评估
功能毁伤树
target vulnerability
main-battle tank
damage assessment
function damage tree
