Download This PaperKinetic Models of Hmx Decomposition Via Chemical Reaction Neural Network
24 Pages Posted: 20 Feb 2024
Abstract
1,3,5,7-Tetranitro-1,3,5,7-tetrazocane (HMX) is commonly used in solid propellants and explosives as energetic materials. The study of its kinetics and decomposition mechanism is of great significance to its application in the aerospace industries. This work investigates the thermal decomposition of HMX based on the combined thermogravimetric (TG) measurements and chemical reaction neural network (CRNN). Two compact kinetic models for HMX are introduced, with one consisting of four substances and a single global reaction (4-1 model) and the other consisting of four substances and four reactions (4-4 model). In the 4-1 model, the calculated activation energy is 328.44 kJ·mol-1, which agrees with the experimental value. As for the 4–4 model, the substances and reactions are assigned based on a skeleton mechanism involving reactions of N-N and C-N bond cleavage and HONO elimination. Moreover, the catalytic effects of TiO2 and Al2O3 on HMX are well simulated using the aforementioned kinetic models. This work presents the application of the CRNN model to obtain a decomposition mechanism of HMX, highlighting its efficacy in accurately capturing the thermal decomposition behavior. The potential extension of CRNN to kinetic modeling of other energetic materials is anticipated in future studies.
Keywords: HMX, Chemical reaction neural network, Thermal decomposition, Kinetic modeling, Reaction mechanism
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