GAS PRODUCTION FROM THERMAL DECOMPOSITION OF EXPLOSIVES:ASSESSING THE THERMAL STABILITIES OF ENERGETIC MATERIALS FROM GAS PRODUCTION DATA

Oxley J.C.; Smith J.L.; Rogers E.

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GAS PRODUCTION FROM THERMAL DECOMPOSITION OF EXPLOSIVES:ASSESSING THE THERMAL STABILITIES OF ENERGETIC MATERIALS FROM GAS PRODUCTION DATA

机译：通过炸药的热分解生产天然气：根据天然气生产数据评估含能材料的热稳定性

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The formation associated with the thermal decompositions of nineteen energetic materials was determined at three temperatures (120deg C, 220deg C and 320deg C). Although there was considerable variability within classes, among the largest producers of gas were the nitrate esters. PETN (pentaerythritol nitrate) generated about 6.3mole gas per mole, while nitrocellulose, produced almost no gas. Second in gas production were the nitramines, followed by nitroarenes and lastly, energetic salts. NTO (5-nitro-2, 4-dihydro-3H-1, 2,4-triazol-3-one), which does not fit into the four main classes of energetic materials, exhibited gas production (2.13 mole gas per mole NTO) comparable with some nitroarenes and the energetic salt, ammonium dinitramide (ADN). For selected compounds gas evolution data was used to construct first-order plots, from which Arrhenius parameters were determined and compared with previously reported values.

机译：在三种温度（120摄氏度，220摄氏度和320摄氏度）下确定了与19种高能材料热分解相关的形成。尽管各类别之间存在相当大的可变性，但最大的天然气生产商中有硝酸酯。 PETN（硝酸季戊四醇酯）每摩尔产生约6.3摩尔气体，而硝酸纤维素几乎不产生气体。产气量第二的是硝胺，其次是硝基芳烃，最后是高能盐。 NTO（5-硝基-2，4-二氢-3H-1，2,4-三唑-3-一）不适合四种主要的高能材料，但其气体产生量为（每摩尔NTO 2.13摩尔气体））可与某些硝基芳烃和高能盐二硝酰胺（ADN）媲美。对于选定的化合物，气体放出数据用于构建一阶图，从中确定Arrhenius参数并将其与先前报告的值进行比较。

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《Journal of Electronic Materials 》 |2000年第1期| 共25页
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Oxley J.C.; Smith J.L.; Rogers E.;
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机译：通过炸药的热分解生产天然气：根据天然气生产数据评估含能材料的热稳定性
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GAS PRODUCTION FROM THERMAL DECOMPOSITION OF EXPLOSIVES:ASSESSING THE THERMAL STABILITIES OF ENERGETIC MATERIALS FROM GAS PRODUCTION DATA

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