DNAN基含预制裂纹炸药装药点火后反应演化特性OA
Reaction Evolution Characteristics of Ignited DNAN-Based Explosive Charges with Pre-cracks
为探究裂纹及其间隙对 2,4-二硝基苯甲醚(DNAN)基含铝炸药机械热点形成后反应传播特性的影响规律,制备了含不同初始裂纹的炸药药柱,采用基于发射药燃烧加载方式的炸药点火试验装置,模拟了炸药的反应传播过程,获取了加载过程和炸药反应过程的压力变化曲线以及试验后的炸药形貌特征,结合数值模拟,分析了不同预制裂纹的炸药药柱在相同药量发射药燃烧加载下的应力场分布特征.结果表明:无裂纹或无间隙"一"字裂纹工况下,药柱残骸完整,加载压力达到峰值后迅速下降,未发生反应,热点区域位于底部;含 1 mm 间隙裂纹工况下,药柱发生断裂并出现局部低速反应,压力衰减过程缓慢.其中,"一"字裂纹工况的热点区域转移至侧表面,而"十"字裂纹工况形成侧表面与底部的双重热点区域,反应程度进一步提升.结果表明,预制裂纹可改变应力分布并扩展热点区域,进而显著影响炸药的反应进程.
To investigate the influence of cracks and gaps on the reaction evolution characteristics of aluminum-containing DNAN-based explosives after the formation of mechanical induced hotspots,explosive charge samples with different initial cracks were fabricated.An explosive impact ignition device based on gun propellant combustion loading was designed.The evolution process following the ignition of explosives was simulated.Pressure changes and post-test morphological features of the explosives were recorded.Numerical simulations were conducted to analyze the stress field and reaction distribution of explosive charges with different initial cracks under the same loading conditions.The results indicate that the crack-free and single-line crack explosive charge with no gap debris remained intact,and pressure dropped rapidly after the peak with no reaction occurred,and the hot spot region was located at the bottom.While for the single-line crack explosive charge with 1 mm gap,the explosive charge fractured and exhibited local low-order reactions,with a slow pressure decay process.Among these,the hot spot region of the single-line crack explosive shifted to the side surface,while the cross-line crack explosive formed dual hot spot regions on both the side surface and bottom,further enhancing the reaction intensity.This demonstrates that pre-cracks significantly influence the explosive reaction process by altering stress distribution and expanding hot spot regions.
姚昕;王辉;沈飞;屈可朋
西安近代化学研究所,陕西 西安 710065西安近代化学研究所,陕西 西安 710065西安近代化学研究所,陕西 西安 710065西安近代化学研究所,陕西 西安 710065
数理科学
DNAN基含铝炸药预制裂纹发射药反应传播响应特性
DNAN-based Al-containing explosivepre-cracksgun propellantreaction propagationresponse characteristics
《高压物理学报》 2026 (5)
75-83,9
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