摘要
通过?30mm杀爆燃弹外场炮击实验,模拟车辆、装备油箱被炮火击中后二次爆炸场景,采用高速照相机、红外热成像仪分别记录引爆柴油过程和爆炸火球的温度场,对比评估普通柴油、含水型柴油和抑爆型柴油的爆炸特性。实验结果显示:炮弹射击油箱瞬间,柴油液滴被抛撒出油箱,与空气快速混合形成气溶胶,并在炸药能量作用下引发爆炸,形成爆炸火球;不同类型柴油的爆炸火球均经历3个发展阶段,但其尺寸、扩展速率和表面温度等有较大差别,普通柴油和含水型柴油的火球这3个参数比较接近,都大于抑爆型柴油;含水型柴油的油箱毁伤容积为108.00dm3,远高于普通柴油的57.65dm3和抑爆型柴油的38.15dm3。研究表明,抑爆柴油中的高分子聚合物能起到较好的抑爆作用。
In order to simulate the scene of secondary explosion caused by the fuel tank of vehicle, equipment bombarded, the shelling experiments of Ф30 mm fragmentation explosive incendiary shell were conducted in the external field. The process of diesel fuel detonated and temperature parameters of fireball were recorded by a high-speed camera, the infrared thermal imager separately. Explosion performance of ordinary diesel fuel, diesel fuel with water content and explosion suppression diesel fuel were compared and evaluated. The results show that the explosion fireball occurs due to the explosive energy acting on aerosols which result from quick mixing of air and diesel fuel dispersed from the fuel tank at the moment when shells shoot the fuel tank. The development all the explosion fireballs have three phases, but there are still notable differences in the sizes, expanding rates and surface temperatures among explosion fireballs of three types of diesel fuel. These three fireball parameters of ordinary diesel fuel and diesel fuel with water content are similar, which are greater than that of explosion suppression diesel fuel. Fuel tank damage volume of diesel fuel with water content is 108. 00 dma, which is far greater than that of ordinary diesel fuel (57.65 dm^3) and explosion suppression diesel fuel (38.15 dm^3). The results also confirm the difference between three types of diesel fuel in explosion performance.
出处
《爆炸与冲击》
EI
CAS
CSCD
北大核心
2015年第4期482-488,共7页
Explosion and Shock Waves
基金
科技部国际科技合作重大专项(2013DFR60080)
江苏省科技厅计划项目(BE2014735)
关键词
爆炸力学
爆炸性能
二次爆炸
柴油
火球
mechanics of explosion
explosion performance
second explosion
diesel fuel
fire ball
