Rapid Thermolysis Studies of [Pb2（TNR）2（CHZ）2（H2O）2]·4H2O and Cd（CHZ）2（TNR）（H2O）

T-jump/FT-IR spectroscopy was used to study the rapid thermal decomposition activity of Pb2（TNR）2（CHZ）2（H2O）2]·4H2O and Cd（CHZ）2（TNR）（H2O） under 0.1 MPa Ar atmosphere. The results show that the main gaseous products of Pb2（TNR）2（CHZ）2（H2O）2]·4H2O are NH3, H2O and HONO, while CO and NO are the major gaseous products of flash pyrolysis of Cd（CHZ）2（TNR）（H2O）. Thus Cd（CHZ）2（TNR）（H2O） is not an eco-friendly and chemically compatible primary explosive. Both compounds liberate volatile metal carbonate, oxide and isocyanate compounds. The combustion temperature and products of the two compounds were calculated by Real code. The results of theoretical calculation show that the combustion temperature of Pb2（TNR）2（CHZ）2（H2O）2].4H2O is higher than that of Cd（CHZ）2（TNR）（H2O）, there is no HNCO in the combus- tion products and the amount of NO is less than the experiment result from T-jump/FTIR.

Rapid Thermolysis Studies of [Pb2（TNR）2（CHZ）2（H2O）2]·4H2O and Cd（CHZ）2（TNR）（H2O）

T‐jump/FT‐IR spectroscopy was used to study the rapid thermal decomposition activity of Pb₂(TNR)₂(CHZ)₂(H₂O)₂]·4H₂O and Cd(CHZ)₂(TNR)(H₂O) under 0.1 MPa Ar atmosphere. The results show that the main gaseous products of Pb₂(TNR)₂(CHZ)₂(H₂O)₂]·4H₂O are NH₃, H₂O and HONO, while CO and NO are the major gaseous products of flash pyrolysis of Cd(CHZ)₂(TNR)(H₂O). Thus Cd(CHZ)₂(TNR)(H₂O) is not an eco‐friendly and chemically compatible primary explosive. Both compounds liberate volatile metal carbonate, oxide and isocyanate compounds. The combustion temperature and products of the two compounds were calculated by Real code. The results of theoretical calculation show that the combustion temperature of Pb₂(TNR)₂(CHZ)₂(H₂O)₂]·4H₂O is higher than that of Cd(CHZ)₂(TNR)(H₂O), there is no HNCO in the combustion products and the amount of NO is less than the experiment result from T‐jump/FTIR.