热分析与量热在材料反应热效应的度量,稳定性、配伍性和危险性的评定,有效使用寿命和热安定性的判定,工业纯化、结晶、转晶、熔融、浇注、凝固最佳生产工艺条件的确定,比热容和导热率随温度变化表达式的建立,反应过程速率的定量描述和机理的推断,反应物和产物标准摩尔生成焓、自发火温度、热爆炸临界度的计算,燃烧初始阶段的定量描述中扮演重要角色,受到国内外科研工作者的广泛关注。为了更好地促进热化学、热分析在含能材料领域的发展和应用,本刊拟定2013年第5期出版《含能材料热化学、热分析》专辑。 Thermal analysis and calorimetry in the material reaction thermal effects measurement, stability, compatibility and risk assessment, the determination of effective life and thermal stability, industrial purification, crystallization, crystal transformation, melting, pouring, solidification of the best production process Condition determination, specific heat capacity and thermal conductivity with the establishment of temperature expression, the quantitative description of the reaction rate and the mechanism of inference, reactants and products standard molar enthalpy of formation, spontaneous combustion temperature, thermal explosion criticality calculation, combustion initial stage Quantitative description of the play an important role, by domestic and foreign researchers of widespread concern. In order to better promote the development and application of thermochemistry and thermal analysis in the field of energetic materials, we published the fifth issue of 2013 entitled “Thermochemistry and Thermal Analysis of Energetic Materials”.