现代水面舰艇和潜艇不仅体积趋于大型化,增加了抗沉性,而且为了防止鱼雷等武器的攻击,装甲加厚,外壳也普遍使用了高强度的合金材料,具有很强的抗爆能力,有的舰艇外壳还做成耐冲击隔层或防雷隔舱。如俄罗斯70年代后生产的几型核潜艇,壳体采用了高强度的钛合金材料,耐压壳和外壳之间达到2～4.6米间距,其间又设置了很多充满淡水的缓冲舱和导弹发射装置等,使潜艇能抗300千克装药的爆压,普通鱼雷要彻底摧毁敌舰艇变得越来越困难。因此,提高鱼雷的破坏威力是未来鱼雷发展的主要方向之一。要提高鱼雷的破坏威力,增 Modern surface ships and submarines not only tend to bulky size, increased sink resistance, and in order to prevent the torpedo and other weapons attacks, armor thickened, the shell also commonly used high-strength alloy material, has a strong anti-explosive capacity, Some ships shell also made impact-resistant compartment or lightning compartment. For example, several types of nuclear submarines produced after the 1970s in Russia used high-strength titanium alloy shells with a spacing of 2 to 4.6 meters between the pressure shell and the shell. In the meantime, a large number of buffer tanks and missile launchers filled with fresh water were installed And so on, so that the submarine can resist 300 kg explosive charge, ordinary torpedoes to completely destroy the enemy ships become more and more difficult. Therefore, improving the destructive power of torpedoes is one of the main directions for the development of torpedoes in the future. To enhance the destructive torpedo, increase