The apparent activation energy of the thermal explosion system was measured to be 585.6kJ/mol .

并计算出该体系的表观活化能E为 585.6kJ/mol。

Potential Risk Evaluation of Thermal Explosion for Exothermic Reaction System

化学放热系统 热 爆炸潜在危险性评价

In the thermal explosion balanced method mix dust explosion limit prediction model had been studied .

通过 热 爆炸平衡判断方法，研究得出混合粉尘的爆炸极限的预测模型。

Measurement of the Activation Energy and Reaction Order of the Ni-Al-Fe System Thermal Explosion

Ni-Al-Fe体系 热 爆反应活化能和反应级数的测定

Influencing factors on synthesis of Al / Mg_2Si with both the combustion modes of thermal explosion and self-propagation

热 爆和自蔓延2种模式下合成Al/Mg2Si的影响因素

Study on adiabatic calorimetric method and theoretic model for evaluating thermal explosion hazard

评价 热 爆炸危险性的绝热量热方法与理论模型研究

Research of anode thermal explosion during Li-ion batteries thermal runaway

锂离子电池热失控过程负极 放热 反应研究

Based on theory of the thermal explosion prediction model of critical temperature when dynamite transits from thermal decomposition to thermal explosion under nonisothermal conditions has been derivated .

根据 热 爆炸理论，推导出了非等温条件下，炸药由热分解过渡到热爆炸时临界温度的预测模型。

Study on thermal explosion delay time of NiAl ( Fe ) system

NiAl（Fe）体系 热 爆 反应延滞时间的研究

Using the variational method the critical parameters including critical temperature of thermal explosion for the finite cylinder of energetic materials have been calculated and the effects of aspect ratio are analyzed .

根据变分原理，计算了各 表面 散热条件不同的有限长圆柱含能材料的 热 爆炸临界参数和临界温度，研究了长径比对 热 爆炸临界参数和临界温度的影响；

The elemental composition and the temperature of thermal explosion are principal factors to influence the reactions and morphology of the products .

体系成分和 热 爆温度是影响反应及产物形态的主要因素。

Model Test of Thermal Explosion Technology in Underground Coal Gasification

煤炭地下气化 热 爆炸技术模型实验研究

Numerical Calculation for Critical Temperature of Thermal Explosion in Detonators Under Nonisothermal Conditions

非等温条件下雷管 热 爆炸临界温度数值计算

Investigation on thermal explosion hazard of hydrogen peroxide

过氧化氢 热 爆炸危险性研究

Study on Limited Thermal Explosion Experiment for Explosive Cylinder

炸药柱限定性 热 爆炸实验研究

Based on theory of hot spot and thermal explosion and combined the measurement results and influences of expansion process randomicity of hot spot formation in expanded ammonium nitrate and its explosives is proposed .

在分析热点理论和 热 爆炸理论的基础上，结合表面特性参数测试结果和膨化工艺的影响，提出了膨化硝酸铵及其炸药在热点形成时具有随机性；

The microstructural difference of the Ti-Al_2O_3 cermet prepared by self-propagation high temperature synthesis ( SHS ) and thermal explosion have been examined .

通过试验观察了Al-TiO2自蔓延高温合成（SHS）和 热 爆合成Ti-Al2O3金属陶瓷复合材料宏观结构差异，并结合冶金学 原理对此作了分析。

The pure Mg_2Ni intermetallic was synthesized by self-propagating combustion mode and thermal explosion mode respectively .

采用自蔓延燃烧模式及 热 爆 燃烧模式合成较纯的Mg2Ni金属间化合物。

The composite products of TiC / NiAl were attained by thermal explosion of Ti-C-Ni-Al system . The synthesis process and compositions microstructure and structure of the product were studied using DSC XRD and SEM .

采用DSC、XRD、SEM研究了Ti-C-Al-Ni系 热 爆复合产物TiC／NiAl的合成过程及其微观组织和结构。

Random nature of thermal explosion criticality of exothermic system

化学放热系统 热 爆炸临界值的随机性

Based on the thermal reaction-diffusion equations of the thermal explosion theory by the way of theoretical analysis and numerical simulation the problem of high energy explosive 's friction sensitivity is studied .

根据 炸药 热 爆炸理论的热反应扩散方程，通过理论分析和数值模拟的方法，对高能炸药的摩擦感度问题进行研究。

Analytical Solution of the Problem on Thermal Explosion For the Cylindrical Case

圆柱形壳体 热 爆炸问题的分析解对可能是 爆炸性的问题低调处理

This paper proposes a new method for simultaneous determination of gaseous components in inclusions by the carrier gas thermal explosion and gas chromatography .

文章提出以载气 热 爆&气相色谱法同时测定矿物包裹体中气相组分的方法。

The thermal explosion of Ni-Al system is induced by solid-solid diffusion reaction .

本文初步确定了Ni-Al系的 热 爆反应是由固固扩散反应引发的。

The critical temperature of thermal explosion of the compound is 191.16 ℃ .

标题化合物的 热 爆炸临界温度为191.16℃。

For the emulsion explosive the critical temperature T_B ( K ) and the critical lag t_B ( s ) of thermal explosion is calculated .

在理论上推算了二级煤矿许用乳化炸药的 热爆炸临界温度TB（K）和开始放热到 热 爆炸温度临界点的延滞期fB（s）。

Experimental Studies on Thermal Explosion of Explosive Cylinders

炸药圆柱体 热 爆炸 现象的实验研究

Thermal explosion and times-to-ignition in uniform - temperature systems

均一温度系统的 热 爆炸和起爆延滞期

The effects of the relative density of mixture the content of Al particle the size of Al particle the heating rate the content of dilution Fe on the thermal explosion point temperature and the thermal explosion delay time are analyzed .

对工艺参数如混合物的相对密度、Al粉的相对含量、Al粉粒度、加热速率、Fe的相对含量对 热 爆点温度和热爆延滞时间的影响做了分析。