Thermal decomposition of energetic materials 13. High-rate thermolysis of benzofuroxans and 3,4-dimethylfuroxan

Rapid-scan infrared spectra with a temporal resolution of 0.2 s of the first observed gas products, several mm from the surface of 34 fast heated (100-130K s -~) energetic materials, were compared over a pressure range of 1-1000 psi Ar. The first observed gas products were strongly dependent on the

The gas products from rapid thermolysis of aminotetrazoles are discussed in terms of their potential to affect the burn rate of a composite propellant. 1,5-and 2,5-diaminotetrazole decompose by two competitive reactions. One reaction gives HCN, NH3, and N 2 and the other gives NtI2CN, NH3, and N 2.

The kinetics of thermal decomposition of hexanitrohexazaisowurtzitane (HNIW) were measured by the isothermal weight loss (TGA) and absorbance changes in the FTIR spectrum at 1 atm. Below 204"C, the initial 50% of decomposition follows the power rate expression k(T)(l -cO n with n = 1,2. The activati

IR spectra of 3,3,3-trinitrobutyric acid, 1, 3,3-dinitrovaleric acid, 2, bis(2,2,2-trinitroethyl)carbonate, 3, and bis(2,2-dinitropropyl)carbonate, 4, were analyzed from 163K to the decomposition temperature. Below the decomposition temperature most of the structural alterations involve the COOH gro

In situ, rapid-scan Fourier transform infrared spectroscopy in conjunction with the infrared absorption intensities is used to construct concentration-time profiles for the gaseous products from thermolysis of octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine (HMX) and hexahydro-1,3,5-trinitro-s-tria