含能材料

C（60）的研究进展及其在含能材料方面的应用前景

Application prospect of c_60 in energetic materials

特种含能材料制造MES系统的设计

Design of the MES for Special Energetic Materials Manufacturing

含能材料损伤裂纹的工业CT图像分析

Analysis of Damaging Crack in Industrial CT Image of Energetic Material

微焦点CT在含能材料密度测试中的应用研究

Research on Energy Material Density by X-Ray Micro Computed Tomography

高氯酸铵（AP）是目前含能材料中应用最广泛的含能氧化剂之一。

Ammonium perchlorate is one of the most widely-used energetic oxidant in Energetic Materials .

含能材料的Brazilian实验研究评述

A Review of Brazilian Test Applied to Energetic Materials

小角散射（SAS）技术在含能材料结构表征中的应用

Applications of Small-angel Scattering ( SAS ) Technique in the Structure Measuring of Energetic Materials

从《含能材料热谱集》中的DSC谱采集数据和计算动力学参数的几个问题

Some Problems of Collecting the Data and Calculating the Kinetic Parameters from DSC Curves of Energetic Materials Thermograms

实验研究了Nd∶YAG激光束通过辐照薄金属片，而对其后紧贴的含能材料的点火阈值。

Based on experiments , the ignition threshold of metal covered energetic material by Nd ∶ YAG laser beam is investigated .

同步辐射SAXS技术在TATB含能材料微孔结构研究中的初步应用

Application of SAXS in determination for microstructure of energetic material TATB

含能材料化学合成专家系统ESCS的设计方法

Design method of escs-expert system for containing energy chemical synthesis

3,4-二氨基呋咱（DAF）是合成呋咱类含能材料的重要前体化合物。

3,4-Diaminofuraza ( DAF ) is an important precursor to synthesize furazan energetic materials .

基于Hopkinson压杆实验技术研究火工品及含能材料的抗高过载能力

Study on Overloading-resistibility of Initiator and Energetic Materials Based on the Technique of Hopkinson Pressure Bar

应用MDL化学反应数据库设计含能材料合成路线研究

Study on Designing Synthetical Routes of Energetic Materials Applying MDL Chemical Reaction Database

用DDV&EA型动态粘弹谱仪对黑索金（RDX）和硝基胍（NGU）填充的硝化纤维素基含能材料的动态贮能模量进行了研究。

The dynamic storage modulus of energetic materials bulk of nitrocellulose filled by RDX and NGU was investigated .

结果表明，RDX含量为45%的RDX/SiO2纳米复合含能材料气凝胶的DSC分解峰温提前了15.4℃。

The results show that compared with pure RDX , the DSC decomposition peak temperature of the aerogel RDX / SiO_2 containing 45 % RDX decreases by 15.4 ℃ .

1,1-二氨基-2,2-二硝基乙烯（FOX-7）是当今新型含能材料研究的热点化合物。

1,1-diamino-2,2-dinitroethylene ( FOX-7 ) is the research hot spot compounds of new energetic materials .

较详细分析了小角散射（SAS）技术测试含能材料结构的原理，对国内外SAS技术在含能材料结构表征方面的应用进行了综述。

The principle of small-angle scattering technique to characterize energetic materials ′ structure was analyzed in detail . The application of SAS technique used in energetic materials structure ′ s measuring was also summarized .

含能材料低温松弛WLF方程的两种求值法

Two methods used to calculate WLF equation of low temperature relaxation for energetic materials

其中预处理与化学、生物处理相结合的综合销毁技术可以实现含能材料废料的安全销毁，最后分析了EM废料安全销毁技术研究的主要特点和发展趋势。

Safety destruction for the EM wastes can be finished by the disposal techniques combining pretreatment , chemical treatment with biology treatment . Finally the major features and development tendency of safety destruction for the EM wastes were analyzed .

利用溶液结晶法制备了RDX／SiO2的凝胶，并通过冷冻干燥和超临界干燥方法分别制备得到RDX／SiO2纳米复合含能材料的干凝胶和气凝胶。

Solution crystal method was used to prepare the RDX / SiO_2 gel , and the xerogel and the aerogel of RDX / SiO_2 nano-composite were separately obtained by freeze-drying and supercritical drying .

含能材料HMX-RDX的热行为研究

Study on Thermal Behaviour of Energetic Material HMX-RDX

提出了由一组热爆炸温度和实测爆炸延滞期数据计算含能材料热爆炸临界温度（Tb）的一种数值方法。

A numerical method for computing the critical temperature ( T b ) of thermal explosion of energetic materials from a set of data of thermal explosion temperature ( T I ) and determined explosion induction ( t I ) is presented .

通过SHPB实验和准静态实验，获得了三种含能材料在应变率10~（-3）s~（-1）～10~3s~（-1）范围的应力应变曲线。

The dynamic compressive stress-strain curves of the three energetic materials are obtained at different strain rates from 10 '3 s-1 to 1000 s-1 by both SHPB tests and quasi-static compressive tests .

对MDL化学反应数据库软件及计算机辅助设计在含能材料合成路线设计中的应用进行了阐述。

The basic principle and technology approach that applying MDL chemical reaction database software and computer aided design system in the synthetical routes of energetic materials are expounded .

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。

In the present thesis , the methods of theoretical analysis and numerical simulation are used to study the Cook-off event of energetic materials .

半导体桥（SCB）通过桥膜放电进行含能材料的点火，具有低点火能量、高安全性以及能与数字逻辑电路组合等优点。

Semiconductor bridge ( SCB ) was utilized to ignite energetic materials with thin film discharge and characterized of low input energy , high safety and logic control possibility .

本论文主要是以新型含能材料LLM-105为研究主题，选用量子化学从头计算的方法对其及其类似物进行研究。

The new high energetic material , LLM-105 , and its analogues were mainly investigated by means of ab initio molecular orbital method in this work .

详细介绍了新型含能材料3-硝基-1,2,4-三唑-5-酮（NTO）的合成与性能研究状况，包括合成方法、晶体结构、量子化学、热分解行为、毒性等方面。

The synthesis and properties of a new energetic material 3-nitro-1,2,4-triazol-5-one ( NTO ), including synthesis methods , crystal structure , quantum chemistry , thermal behaviors and toxicity were reviewed in details .

热感度是物质在热作用下发生快速化学反应难易程度的度量，求取含能材料的热感度的本质是求取诱导期TMR与温度的关系。

Thermal sensitivity is a measurement on how easily fast chemical reaction will happen . The essence of studying thermal sensitivity of energetic materials is to find the relationship of time to maximum rate ( TMR ) and the decomposition temperature .