摘要
提出了一种基于差动原理的固体差动随行装药的高初速火炮发射方案,该方案能有效克服传统随行装药技术提高初速必将伴随射弹底部最大压力增加的缺点。它的主要特点是运用差动原理,实现不同组合件之间的速度不同,自动压缩储能室使随行工质向弹后连续喷射,有效抑制和消除了弹丸运动引发的稀疏波影响,提高了火炮工作容积利用率。推导了差动随行组合弹丸不同组合件动力学模型,给出了弹载工质物理量分布关系式。计算结果表明,在最大膛压、飞行弹丸底部最大压力、弹重及弹丸行程等不变条件下,随行药量取10.2kg,某大口径火炮的弹丸初速可提高26%,火炮工作容积利用率提高约44%。该方案可为火炮提高初速和实现超远程发射提供新的途径。
A solid traveling charge concept which can be used in high muzzle velocity gun firing is pro- posed based on differential principle. This concept can effectively overcome disadvantage of traditional traveling charge which increases projectile velocity and projectile base maximum pressure at the same time. A main character of the concept is to realize automatic compression of energy storage chamber and continuous injection of traveling working medium toward the in-bore space through speed differ- ence between different components. Therefore the concept can effectively fill pressure drops of the projectile bottom and improve the utilization rate of gun working volume. The kinetic model of different components of differential traveling projectile and the physical quantity distribution of missile- borne working medium are deduced. With fixed maximum bore pressure, maximum projectile base pressure, projectile mass and travel, etc. , and traveling charge mass 10.2 kg, calculation of some large caliber gun indicates that the projectile muzzle velocity increases by 26% and the utilization rate of gun working volume increases by 44%. This study provides a new technological approach for in- creasing gun muzzle velocity and realizing ultra-long distance firing.
出处
《爆炸与冲击》
EI
CAS
CSCD
北大核心
2015年第1期70-75,共6页
Explosion and Shock Waves
关键词
爆炸力学
固体随行装药
差动原理
高初速火炮
内弹道学
mechanics of explosion
solid traveling charge
differential principle
high muzzle velocity gun
interior ballistics
