T-JUMP/FTIR STUDIES OF POLY-GLYCIDYL NITRATE (PGN) PYROLYSIS

摘要

In an effort to understand the effects of hydroxyl end-modification and isocyanate curing, decomposition of PGN prepolymer has been investigated using T-Jump/FTIR (Fourier transform infrared) spectroscopy of PGN allowing real-time analysis of decomposition gas products under simulated deflagration conditions. Our results identify decomposition products including: CH2O, H2O, CO2, CO, N2O, NO, NO2, HCN and HONO. Kinetic rates relative to CO2 formation lead to calculated activation energies of 22 kcal/mol and 18 kcal/mol. Much higher activation energies (32 kcal/mol) were calculated relative to CH2O formation rates, in agreement with DSC data, indicating that CH2O formation is likely an initial decomposition step while CO2 formation is due to side gas phase reactions. Additional FTIR and optical microscopy studies indicate that condensed phase, backbone scission reactions also occur, causing time delays prior to major gas production.