摘要
The stability of pyrotechnic composition used in flame detonator was studied at severe temperatures (-70-130 ℃) for 5 d. For single N-LTNR(normal lead styphnate), camera was used to observe the shape and colour of N-LTNR in the DSC(differential scanning calorimetry) furnace during continuous heating and cooling processes. Based on the DSC-TGA(thermogravimetric analysis) results, it can be seen that when the temperature exceeded 110 ℃, N-LTNR lost its crystal water, making the energetic material become darker in colour, smaller in dimension, lager in volume and lighter in weight(3.416%); when the temperature was below -40 ℃, the phenomenon of sample broking, jumping and cracking happened. For the N-LTNR and Pb(N3)2(lead azide) double layers, the loss of N-LTNR's crystal water at the temperature higher than 110 ℃ caused the hydrolysis reaction of Pb(N3)2, and the purity of Pb(N3)2 measured after the temperature cycling decreased from 98.6% to 95.26%. For the flame detonator, the height and diameter of the flame detonator were measured and no apparent changes of them were found. The p-t(pressure-time) test shows that the peak pressure was decreased by 3.9%. Therefore, the operating temperature of this flame detonator should be limited to -40-110 ℃.
The stability of pyrotechnic composition used in flame detonator was studied at severe temperatures (-70-130 ℃) for 5 d. For single N-LTNR(normal lead styphnate), camera was used to observe the shape and colour of N-LTNR in the DSC(differential scanning calorimetry) furnace during continuous heating and cooling processes. Based on the DSC-TGA(thermogravimetric analysis) results, it can be seen that when the temperature exceeded 110 ℃, N-LTNR lost its crystal water, making the energetic material become darker in colour, smaller in dimension, lager in volume and lighter in weight(3.416%); when the temperature was below -40 ℃, the phenomenon of sample broking, jumping and cracking happened. For the N-LTNR and Pb(N3)2(lead azide) double layers, the loss of N-LTNR's crystal water at the temperature higher than 110 ℃ caused the hydrolysis reaction of Pb(N3)2, and the purity of Pb(N3)2 measured after the temperature cycling decreased from 98.6% to 95.26%. For the flame detonator, the height and diameter of the flame detonator were measured and no apparent changes of them were found. The p-t(pressure-time) test shows that the peak pressure was decreased by 3.9%. Therefore, the operating temperature of this flame detonator should be limited to -40-110 ℃.
基金
Supported by the National Natural Science Foundation of China(No. 11172042).
