Comparison of Three CL-20 Based Explosive Parameters

Biodegradation of the High Explosive Hexanitrohexaazaiso-wurtzitane (CL-20)

The aerobic biodegradability of the high explosive CL-20 by activated sludge and the white rot fungus Phanerochaete chrysosporium has been investigated. Although activated sludge is not effective in degrading CL-20 directly, it can mineralize the alkaline hydrolysis products. Phanerochaete chrysosporium degrades CL-20 in the presence of supplementary carbon and nitrogen sources. Biodegradation ...

مروری بر مشخصات پیشرانه‌های پایه CL-20 (علمی-ترویجی)

بهینه سازی شرایط تهیه ماده منفجره CL-20

Effect of Impact Parameters on Explosive Welding of Tube to a Plug

Effects of some important parameters like impactor effects, plug geometry and initiation points on bonding aluminum tubes to aluminum plugs were studied. The impact velocity and dynamic angle between tube and plug should be precisely managed to achieve an optimum bonding condition. A new explosive bonding technique with the use of two material impactors was proposed. Results are especially suit...

Mechanisms and Kinetics of Thermal Decomposition of CL-20

In contrast to past studies of thermal decomposition mechanisms of explosives designed to determine the detailed chemical pathways by which these large organic molecules are transformed into small reaction products (N2, NO, N2O, HCN, CO, CO2, H2O, etc.)—crucial to predicting long-term stability for storage; sensitivity to heat and mechanical impact; and risk assessment associated with their usa...