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high explosives
    STUDY ON DETERMINING TENSILE STRESS STRAIN CURVES OF HIGH EXPLOSIVES
    高能炸药拉伸应力-应变曲线测定方法的研究
    AN ADIABATIC DETONATION CALORIMETER AND DETERMINATION OF DETONATION HEAT FOR HIGH EXPLOSIVES
    绝热型爆轰热量计的建立和高能炸药的爆热测定
    LAGRANGIAN ANALYSIS OF FLOW FIELD IN DETONATION REACTION ZONE OF HIGH EXPLOSIVES
    高能炸药爆轰波反应区流场的拉格朗日分析方法
    Studies on thermal decomposition of new high explosives
    新型高能炸药热分解研究进展
    Research of the Detonation Temperature and the Internal Structure of Reaction Zone of High Explosives
    高能炸药爆温及反应区结构研究
    Ageing Studies of High Explosives
    高能炸药的老化研究
    Two-dimensional Numerical Simulation of Non-ideal Detonation in High Explosives
    高能炸药非理想爆轰的二维数值模拟
    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.
    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。
    The Measurement in the Transition from Deflagration to Detonation in Porous Charge High Explosives
    多孔隙装药的高能炸药燃烧转爆轰的测试
    INVESTIGATION ON THERMAL EXPLOSION OF SOME HIGH EXPLOSIVES
    高能炸药药柱实验热爆炸的方法和结果
    Characteristics of High Explosives Obtained from Cylinder Test Data
    圆筒实验数据研究高能炸药的爆轰特性(英文)
    The Time-temperature Superposition Principle and the Properties of High Explosives(HE)
    时间、温度效应对高能炸药性能的影响研究
    By applying the Time-Temperature Superposition (TTS) principle, the regularities of the behavior of these typical high explosives (HE) brought by the effect of time and temperature are analyzed.
    利用时间—温度迭加(TTS)原理初步研究了这几种高能炸药性能随时间、温度变化的规律。
    Compared by the computational results from the Time-Temperature Superposition (TTS) principle, the high explosives can be studied whether singleness reaction or complex reaction by applying shift factor.
    通过比较应用时间—温度迭加(TTS)原理和Arrhenius公式计算结果,无论高能炸药发生单一反应还是复杂反应,都可以通过时间—温度迭加(TTS)原理的约化因子来进行研究。
    To compare with the standard cylinder test used widely,the experimental values of four typical high explosives are given.
    给出了四种典型的高能炸药的实验结果并与广泛采用的标准园筒试验进行了比较。
    The purpose of this paper is to describe the measurement in the transition from deflagration to detonation in porous charge high explosives. The test data for 662, HMX, PETN, RDX, 2015 and 8321 are presented. Some questions on the measurement are also discussed.
    文中给出了多孔隙装药的高能炸药燃烧转爆轰的测试方法,并给出了602、HMX、PETN、RDX、2015及8321等6种高能炸药的测试结果,最后,对此方法进行了讨论.
    A simple Lagrangian analysis method to give the reaction flow field in detonation reaction zone of high explosives is proposed in this paper.
    给出了一种简单的、对高能炸药爆轰反应区流场进行拉格朗日分析的方法。
    The present situation of theoretical study and the main influence factors of the hot spot ignition period about the performance of the shock wave initiation of heterogeneous high explosives are discussed. The two phase viscidity elasticity initiation model for the shock wave initiation of high explosive have been used to simulate influence factors to the hot spot ignition period.
    讨论了国内外关于非均相高能炸药冲击波起爆性能的理论研究状况及热点点火阶段的主要影响因素 ,用高能炸药冲击波起爆的两相粘弹性点火模型来模拟这些因素对非均相高能炸药冲击波起爆热点点火阶段的影响
    Ageing effect of high explosives involve bulk expansion, plasticizer migration, ageing of binders, mechanical properties decrease and incompatibility of materials, and ageing factors include heat, exterior stress and low-dose radiation.
    高能炸药的老化效应包括体积膨胀、增塑剂迁移、粘结剂老化、力学性能下降以及材料的不相容性等。 老化的环境因素有热、外部应力、低剂量辐射等。
    Composite modified double base propellants formed by introducing high explosives and high energy oxidants into their formulations to obtain higher energy and burning rate are extensively used in strategic missiles, tactical missiles and rockets because of their superior properties.
    为了获得较高的能量和燃速,在推进剂组分中加入了高能炸药和高能氧化剂所形成的改性双基推进剂,因为它性能优越,广泛应用在战略导弹、战术导弹及火箭弹中。
 

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