爆破器材
爆破器材
폭파기재
2014年
2期
20-23
,共4页
倪欧琪%解立峰%李斌%韩志伟
倪歐琪%解立峰%李斌%韓誌偉
예구기%해립봉%리빈%한지위
粉状乳化炸药%爆轰%弯曲装药%爆速亏损
粉狀乳化炸藥%爆轟%彎麯裝藥%爆速虧損
분상유화작약%폭굉%만곡장약%폭속우손
powdery emulsion explosive%detonation%curved charge%velocity deficit
文章主要研究了弯曲装药条件下粉状乳化炸药的爆轰特性,并用弯曲装药条件下粉状乳化炸药爆轰速度出现的衰减,即爆速亏损进行表征。试验装置的材料为304钢,钢板上加工有凹槽,粉状乳化炸药装填在不同尺寸的凹槽中,采用爆速仪测量凹槽不同部位装药的爆速。试验发现:粉状乳化炸药的弯曲装药在爆轰过程中存在明显的爆速亏损;在连续的弯曲装药条件下,装药的爆轰出现持续衰减的现象。同时,在弯曲装药条件下,当装药截面积S一定时,爆速亏损随着曲率半径的减小而增加;当装药的曲率半径R一定时,爆速亏损随着装药截面积的减小而增加。而且曲率半径对爆轰传播的影响大于装药截面积的影响。文章通过数据分析,建立了装药截面积S和曲率半径R与爆速亏损之间的关系模型。
文章主要研究瞭彎麯裝藥條件下粉狀乳化炸藥的爆轟特性,併用彎麯裝藥條件下粉狀乳化炸藥爆轟速度齣現的衰減,即爆速虧損進行錶徵。試驗裝置的材料為304鋼,鋼闆上加工有凹槽,粉狀乳化炸藥裝填在不同呎吋的凹槽中,採用爆速儀測量凹槽不同部位裝藥的爆速。試驗髮現:粉狀乳化炸藥的彎麯裝藥在爆轟過程中存在明顯的爆速虧損;在連續的彎麯裝藥條件下,裝藥的爆轟齣現持續衰減的現象。同時,在彎麯裝藥條件下,噹裝藥截麵積S一定時,爆速虧損隨著麯率半徑的減小而增加;噹裝藥的麯率半徑R一定時,爆速虧損隨著裝藥截麵積的減小而增加。而且麯率半徑對爆轟傳播的影響大于裝藥截麵積的影響。文章通過數據分析,建立瞭裝藥截麵積S和麯率半徑R與爆速虧損之間的關繫模型。
문장주요연구료만곡장약조건하분상유화작약적폭굉특성,병용만곡장약조건하분상유화작약폭굉속도출현적쇠감,즉폭속우손진행표정。시험장치적재료위304강,강판상가공유요조,분상유화작약장전재불동척촌적요조중,채용폭속의측량요조불동부위장약적폭속。시험발현:분상유화작약적만곡장약재폭굉과정중존재명현적폭속우손;재련속적만곡장약조건하,장약적폭굉출현지속쇠감적현상。동시,재만곡장약조건하,당장약절면적S일정시,폭속우손수착곡솔반경적감소이증가;당장약적곡솔반경R일정시,폭속우손수착장약절면적적감소이증가。이차곡솔반경대폭굉전파적영향대우장약절면적적영향。문장통과수거분석,건립료장약절면적S화곡솔반경R여폭속우손지간적관계모형。
Detonation characteristics of powdery emulsion explosive in curved charge were studied experimentally by velocity deficit. In the experiments, powdery emulsion explosive was charged in a curved groove which was machined in steel plates of 304 steel and detonation velocities of the charge in different part of the groove were measured by detonation velocity meter. The results show that curved charge can decrease the strength of detonation continuously,and obvious velo-city deficit of the charged explosive is observed. When cross section area S of the curved charge is fixed,the velocity deficit will increase with the reduction of curvature radius R . When curvature radius R of the curved charge is fixed,the velocity deficit will increase with the reduction of cross section area S. The effect of R to detonation propagation is greater than that of S. The experimental formulas between S,R and velocity deficit were also proposed.