分解
热分解
放热反应
差示扫描量热法
成核
热稳定性
结晶
材料科学
高能材料
过冷
结晶学
蒸发
化学工程
热力学
化学
爆炸物
有机化学
物理
工程类
作者
David Doblas,Martin Rosenthal,Manfred Burghammer,Dmitry Chernyshov,Denis Spitzer,Dimitri A. Ivanov
标识
DOI:10.1021/acs.cgd.5b01425
摘要
The interest in co-crystals of energetic materials is explained by the fact that they can offer better thermodynamic stability and tunable sensitivity and detonation performance. In the present work, a combination of DSC, ultrafast chip calorimetry, high-resolution X-ray powder diffraction, and nanofocus X-ray diffraction was employed to investigate the thermal behavior and structure formation in nanosized co-crystals of CL-20 with HMX and TNT prepared using Spray Flash Evaporation (SFE). The CL-20/HMX co-crystal does not reveal any thermal transitions up to the thermal decomposition. In contrast, CL-20/TNT exhibits an irreversible melting transition. Upon melting, it can rapidly crystallize on heating or, at a slower pace, at room temperature to form homocrystals of γCL-20, the polymorph stable at high temperature. These observations constitute the first evidence of a CL-20 crystallization process, which occurs from the melt and not from solution. The solid–liquid phase separation occurring during heating of a CL-20/TNT melt may explain its complex thermal decomposition process as compared to that of CL-20/HMX: the main exothermic peak of decomposition can be assigned to that of a pure CL-20.
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