关键词: 高能推进剂;富氮化合物+;热分解;动力学;分解机理+;红外光谱

Abstract: To obtain the thermal decomposition kinetics parameter,mechanism function and gas(solid) phase product of nitrogen-rich high energetic material 3,6-bis(1H-1,2,3,4-tetrazol-5-yl-amino)-1,2,4,5-tetrazine(BTATz) which can provide pivotal thermochemistry,thermodynamics and kinetic parameters for modeling the combustion process.The thermal decomposition of BTATz was investigated by using themogravimetry(TG),differential scanning calorimetry(DSC) and gas(solid) in-situ thermolysis rapid scanning Fourier transform infrared spectroscopy(RSFTIR) coupling technique.The results show that the thermal decomposition characteristics of BTATz is insensitive to pressure.The thermal decomposition kinetic parameters and equation of BTATz are obtained based on Ozawa,Kissinger and Coats-Redfern method.Based on Kissinger method,the Ea and lgA values are 317.41kJ mol-1,28.07s-1,respectively.The kinetic equation of BTATz can be expressed as dαdt=1.5×1028.07exp(-3.8178×104/T)(1-α)[-1n(1-α)]1/3.The possible thermal decomposition mechanism of BTATz is presented.The primary step in the thermal decomposition of BTATz is the opening of the tetrazine and tetrazole ring.Then the products have the secondary reation.The solid residue consists of NH4N3,polyamine and melem at 465 ℃.

Key words: High energy propellant;Nitrogen-rich compound+;Thermal decomposition;Dynamics;Decomposition mechanism+;Infrared spectrum