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首页> 美国政府科技报告 >Thermal decomposition of HMX: Low temperature reaction kinetics and their use for assessing response in abnormal thermal environments and implications for long-term aging
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Thermal decomposition of HMX: Low temperature reaction kinetics and their use for assessing response in abnormal thermal environments and implications for long-term aging

机译:HmX的热分解:低温反应动力学及其用于评估异常热环境中的响应以及对长期老化的影响

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The thermal decomposition of HMX between 175 and 200(degree)C has been studied using the simultaneous thermogravimetric modulated beam mass spectrometer (STMBMS) apparatus with a focus on the initial stages of the decomposition. The identity of thermal decomposition products is the same as that measured in previous higher temperature experiments. The initial stages of the decomposition are characterized by an induction period followed by two acceleratory periods. The Arrhenius parameters for the induction and two acceleratory periods are (Log(A) = 18.2 (plus minus) 0.8, Ea = 48.2 (plus minus) 1.8 kcal/mole), (Log(A) = 17.15 (plus minus) 1.5 and Ea = 48.9 (plus minus) 3.2 kcal/mole), (Log(A) = 19.1 (plus minus) 3.0 and Ea = 52.1 (plus minus) 6.3 kcal/mole), respectively. This data can be used to calculate the time and temperature required to decompose a desired fraction of a sample that is being prepared to test the effect of thermal degradation on its sensitivity or burn rates. It can also be used to estimate the extent of decomposition that may be expected under normal storage conditions for munitions containing HMX. This data, along with previous mechanistic studies conducted at higher temperatures, suggest that the process that controls the early stages of decomposition of HMX in the solid phase is scission of the N-NO(sub 2) bond, reaction of the N0(sub 2) within a 'lattice cage' to form the mononitroso analogue of HMX and decomposition of the mononitroso HMX within the HMX lattice to form gaseous products that are retained in bubbles or diffuse into the surrounding lattice.

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