1) critical initiation criterion
临界起爆判据
2) initiation criterion
起爆判据
1.
The value of initiation criterion for double layer asctive armor is measure by X ray photography.
探讨了射流对反应装甲(两面带有覆盖板的炸药)的起爆机理,通过闪光X射线摄影,测定了双层反应装甲的起爆判据数值,讨论了起爆反应装甲的影响因素。
3) critical criterion
临界判据
1.
Preliminary study on the critical criterion for distinguishing floc sedimentation and gel-like network sedimentation
粘性细颗粒泥沙絮团发育与絮网发育临界判据的初步研究
4) critical initiation energy
临界起爆能
1.
By use of a vertical shock tube,the detonation limit,critical initiation energy,de tonation pressures and detonation velocities of nitric ether(IPN) air mixture were determined experimentally.
实验结果证明了 IPN的临界起爆能与燃料当量比成“U”形曲线关系 ;该结果对防止意外事故有一定的指导意
2.
Results demonstrate that the relationship of critical initiation energy and equivalence ratio shows a U-shaped curve,the critical energy is obtained when equivalence ratio is slightly larger than 1.
采用升降法和烟迹技术在立式激波管中分别实测了液态燃料(环氧丙烷、硝酸异丙酯、己烷、C5~C6、庚烷、癸烷)与空气混合物直接起爆的临界起爆能和胞格尺寸。
3.
The critical initiation energy of hydrocarbon-air mixtures was measured by the up and down method,and cell size was studied by smoked metallic foil under the conditions of direct initiation in vertical shock wave tube.
在立式激波管中采用升降法和烟迹技术实测了几种碳氢燃料空气混合物直接起爆的临界起爆能和云雾爆轰波胞格尺寸。
5) critical energy
临界起爆能
1.
This article has measured the critical energy of the most sensitive composition of butane-air mixture in confined (shock tube tests) and unconfined conditions.
分别在有约束(激波管实验)和无约束(野外实验)条件下测定了丁烷与空气混合物最敏感成分的临界起爆能,并利用zel’dovich理论将激波管内数据外推到野外,结果发现理论计算结果与实测数据基本吻合。
6) critical initiation pressure point
临界起爆点
1.
Yet most of them just surveyed the shock sensitivity gap thickness for different explosives, and little studied the SIP near the critical initiation pressure point (CIPP).
然而鲜有文献对临界起爆点附近的冲击起爆现象进行研究,而只是测出了各种炸药的冲击起爆隔板厚度值。
补充资料:单质起爆药
分子式:
CAS号:
性质:分子中含有特征起爆性基团的单一化合物,重要的有叠氮化合物(如叠氮化铅)、重氮化合物(如二硝基重氮酚)、重金属的雷酸盐(如雷汞)、多氮化合物(如四氮烯)、重金属的硝基酚盐(如三硝基间苯二酚铅)、乙炔化合物(如乙炔银)、过氧化合物(如过氧化三环丙酮)等,但常用的是前五种。
CAS号:
性质:分子中含有特征起爆性基团的单一化合物,重要的有叠氮化合物(如叠氮化铅)、重氮化合物(如二硝基重氮酚)、重金属的雷酸盐(如雷汞)、多氮化合物(如四氮烯)、重金属的硝基酚盐(如三硝基间苯二酚铅)、乙炔化合物(如乙炔银)、过氧化合物(如过氧化三环丙酮)等,但常用的是前五种。
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参考词条