摘要
常规钻地武器的毁伤特征是精准和钻地,侵爆效应十分明显,能够摧毁地面建筑,破坏浅埋工事,但对构筑于岩体中的地下工程则不论是单弹打击、多弹重复打击,还是超高速打击,均存在毁伤极限。抗钻地武器打击,必须充分利用岩体自然防护层的抗力。研究结果表明:精确制导常规武器所需要的防护层厚度,远低于防御核武器触地爆所需的岩层厚度;对于制导常规武器,构筑在百米岩体以下的坑道工事则是足够安全的。不应忽视制导武器的侵爆威胁,但过分夸大也会误导决策。
The damage characteristics of conventional earth penetration weapon(EPW) are precision and earth penetration,and the effect of penetration-detonation of EPW is very outstanding in these actions such as destroying surface buildings and shal-low shelters. However, there is always limited damage depth, no matter single EPW impact, or multiply EPW repeated attack, orhigh velocity weapon hit happens to the hard underground engineering in rock mountain. To defense EPW attack, the resistance ofnatural protective layer of rock mountain has to be used to the full. Results show that the thickness of protective layer against preci-sion- guided conventional EPW is thinner than that of rock layer against earth- contacted burst of nuclear weapon; and the tunnelworks under hectometer rock can defense conventional EPW hit well. Therefore, the penetration-detonation menace of EPW shouldbe taken seriously but should not be exaggerated.
出处
《后勤工程学院学报》
2016年第5期1-9,共9页
Journal of Logistical Engineering University
基金
国家自然科学基金项目(51608524)
关键词
钻地武器
破坏效应
工程防护
研究现状
发展方向
earth-penetration weapon
damage effect
engineering protection
research status
development
