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高能炸药
相关语句
  high energy explosive
    Multinitroazetidines have been a kind of important new high density energetic materials because of the high strain energy associated with their four-membered ring and can be used constituents of high energy explosive, propellant and gun power.
    多硝基氮杂环丁烷因其紧凑张力的四元杂环结构使该类化合物具有很高的能量,从而成为一类重要的高能量密度材料,可作为高能炸药、推进剂和炮用发射药的组成成分。
短句来源
    The impact sensitivity and friction sensitivity of TNAZ were testedTNAZ has been used as new high energy explosive at abroad.
    TNAZ作为新型高能炸药在国外得到了应用,而国内对TNAZ的合成和性能的研究很少。
短句来源
    However, there haslittle study on the synthesis and properties domestic, so the work of the text will promote TNAZ as the constituent of high energy explosive formulation which used in new weapons such as high energy tank in the future.
    因此本论文工作对于推动TNAZ在我国今后高能坦克等新武器系统所需的高能炸药配方应用方面有着积极的作用。
短句来源
  “高能炸药”译为未确定词的双语例句
    The molecular structure and the heat of formation of explosive RDX and its decomposition products,such as C 3H 6N 5O 4,C 3H 6N 4O 2,H 2CN—CH 2N—CH 2,CH 2N—NO,were studied using molecular orbital method.
    利用分子轨道方法MNDO、AM1、PM3等计算了高能炸药RDX(C3H6N6O6)及其中间产物C3H6N5O4 、C3H6N4 O2 、(H2 C) (N—CH2 ) (N—CH2 )NN、CH2 N—NO2 的分子结构与热力学性质。
短句来源
    For 3,5-diamino-2,4,6-trinitropyridine the predicted density reaches 2.2 g ·cm~(-3),and the smallest bonder order of C—NO_2 bonds is slightly smaller than that of DATB,implying that 3,5-diamino-2,4,6-trinitropyridine is a high density,low-sensitive explosive.
    3,5 二氨基 2,4,6 三硝基吡啶的理论计算密度达到了2.2g·cm-3,并且它的C—NO2键级略小于DATB,预示着其为高密度低感高能炸药
短句来源
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  high explosive
In [4], the detonation of a solid high explosive was used to produce population inversion in the gas mixture CO2-N2-He(H2O).
      
The NEZND theory identified the nonequilibrium excitation processes that precede and follow the exothermic decomposition of a large high explosive molecule into several small reaction product molecules.
      
Thus an analytic formula with two parameters of high explosive (i.e.
      
Shock response of the commercial high explosive Detasheet
      
The mechanical and chemical response of the flexible commercial high explosive DetasheetR is studied under controlled impact and plane-wave, high explosive loading.
      
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In order to explore the possibility of utilizing polynitrosulfamides and polynitrothione as high explosives, three new sulfo-eompounds: 2, 5-Dinitro-2, 5-diazacyclopentanesulfone(Ⅰ), 2, 4, 4, 6-Tetranitro-2, 6-diazacyclohexanesulfone(Ⅱ) and 2, 4, 6-Trinitro-2, 4, 6-triazaeyelohexanethione(Ⅲ), were synthesized and some of their properties and detonation parameters were determined. The experimental data show that they are explosives with high sensitivity. WhenSO_2 and C-Sgroups take the place of CH_2 group, as...

In order to explore the possibility of utilizing polynitrosulfamides and polynitrothione as high explosives, three new sulfo-eompounds: 2, 5-Dinitro-2, 5-diazacyclopentanesulfone(Ⅰ), 2, 4, 4, 6-Tetranitro-2, 6-diazacyclohexanesulfone(Ⅱ) and 2, 4, 6-Trinitro-2, 4, 6-triazaeyelohexanethione(Ⅲ), were synthesized and some of their properties and detonation parameters were determined. The experimental data show that they are explosives with high sensitivity. WhenSO_2 and C-Sgroups take the place of CH_2 group, as might have been expected, the density of these compounds is raised but their detonation velocity not increased at all and the thermal stability decreased.

为了探讨多硝基环状硫酰胺及硫酮作为新型高能炸药的可能性,我们首次合成了2,5-二硝基-2,5-二氮杂环戊砜(Ⅰ)、2,4,4,6-四硝基-2,6-二氮杂环己砜(Ⅱ)和2,4,6-三硝基-2,4,6-三氮杂环己硫酮(Ⅲ),并测试了它们的部分理化和爆轰性能。实验数据表明:它们是一类高感度炸药。与预期相同,用>SO_2和>=S基团代替>CH_2时,可以提高炸药的密度,但爆速未见提高,这些基团的引入使热安定性降低。

In this peper,a new chemical Compound, the 2,4,7,9,11, 14-Hexa azo tricycle tetradecane [8. 4. 0.0~(3,8)], is introduced,Which has not been reported. The compound is an ideal intermediateof explosive. Various factors affecting the synthetic reaction werestudied more thoroughly. A Preliminary study on the mechanism of thereaction is given herein.

本文提出了合成2,4,7,9,11,14,-六氮杂三环[8.4.0.0~3,8]十四烷这个未见报道的化合物。它是一个比较理想的高能炸药中间体。本文还较深入地研究了合成反应的各种影响因素,对反应机理也进行了初步的讨论。

A large adiabatic detonation calorimeter has been designed to determinedetonation heat of explosives。The maximuaii tested sample is 50g with shell,which canbe detonated in vacuum or in nitrogen atmosphere, The detonation heat of morethan 20 high explosives was determined.The results indicated that for composite explo- sives,there was a linear accumulative relationship between heat of detonation and itscomposition,and the former could be calculated from the latter.

设计了一种大型绝热型爆轰热量计。最大试验药量为50g带外壳的高能炸药。试样在真空中爆炸,也可在充氮环境中爆炸。测定了20余种高能炸药的爆热(△H_(det)),实验结果表明,混合炸药爆热的组分之间存在线性加和关系,可以根据其组分计算混合作药的爆热。

 
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