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1)  slow cook-off
慢速烤燃
1.
The study of charging size influence on the response of explosives in slow cook-off test;
炸药装药尺寸对慢速烤燃响应的研究
2.
The method and assessment standard of munition in slow cook-off test is introduced and the factors affecting slow cook-off response of munition are analyzed.
介绍了弹药慢速烤燃试验方法和评判标准,初步分析了影响弹药慢速烤燃响应的因素。
3.
The relationship between slow cook-off behaviour and thermal decomposition characteristics of NEPE propellant and HTPB propellant was analyzed by simultaneous differential scanning calorimetry and thermogravimetry (DSC-TG), scanning electronic microscope(SEM)and slow cook-off test.
利用同步差示扫描热重联用仪(DSCTG),扫描电镜(SEM)和慢速烤燃试验,对比分析了NEPE推进剂和HTPB推进剂的热分解特性与慢速烤燃行为的关系。
2)  fast cook-off
快速烤燃
1.
The fast cook-off test of ammunition with different sealing shell was carried out.
选用钝化RDX原料,对不同密封性的装药壳体进行弹药的快速烤燃试验。
3)  cook-off [英]['kukɔ:f]  [美]['kʊk,ɔf]
烤燃
1.
Where,the cook-up process of missiles is analyzed and,the heat transfer model is established,the cook-off time-temperature process is simulated.
介绍了舰载导弹发射舱相邻舱室起火时火源对舱内导弹的烤燃研究方法,分析了影响烤燃过程的各种因素,建立了一般烤燃传热数学模型,模拟计算了某型导弹烤燃时间—温度的变化过程。
2.
The word Cook-off means the premature deflagration or detonation of ammunition caused by the absorption of heat from its environment.
本文旨在通过运用理论分析及数值模拟相结合的方法,研究含能材料在高温环境下的热响应,即含能材料的烤燃(Cook-off)现象。
3.
The Cook-off test of RDX cylinder was researched numerically by means of adding Frank-Kamenetskii model, first order reaction model and McGuire-Tarver model into this FEM code.
采用有限元方法编制二维烤燃程序,程序中加入了Frank-Kamenetskii零级反应模型、一级反应模型及McGuire-Tarver反应模型,对RDX炸药圆柱体的烤燃行为进行了数值模拟研究。
4)  kindling [英]['kɪndlɪŋ]  [美]['kɪndlɪŋ]
慢燃
5)  Cookoff behavior
烤燃特性
6)  cook-off test
烤燃实验
1.
The thermal safety of 2,4-dinitroanisole(DNAN) explosive was studied by cook-off test.
采用自行设计的一种烤燃实验装置,对一种新型熔铸载体炸药2,4-二硝基苯甲醚(DNAN)的热安全性进行了实验研究,得到其自发火温度、热爆炸延滞期和热爆炸临界温度,并与传统熔铸载体炸药TNT进行了对比。
补充资料:超高燃速推进剂
分子式:
CAS号:

性质:燃速大于100mm/s的固体推进剂称超高燃速推进剂。主要用于特种用途的助推器如高速拦截武器、高速动能弹用的固体助推器。在高燃速固体推进剂药柱中镶嵌导热系数大的金属(一般为银)丝或石墨纤维可获得超高燃速固体推进剂,已得到实际应用。在高燃速固体推进剂配方中添加含量10%以上碳硼烷类高效燃速催化剂,也可获得超高燃速推进剂。此类催化剂因价格昂贵,未得到实际应用。多孔推进剂是一种超高燃速推进剂,但技术不成熟。

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