1 |
Recent advances for prediction of electric spark and shock sensitivities of organic compounds containing energetic functional groups to assess reliable models Keshavarz MH, Damiri S, Bagheri V Process Safety and Environmental Protection, 131, 9, 2019 |
2 |
Liquid Carbon Dioxide as Anti-Solvent Coating Aluminum Hydride Cai XW, Yang JH, Zhang JL, Ma DX, Wang YP Propellants Explosives Pyrotechnics, 40(6), 914, 2015 |
3 |
Predicting the electric spark sensitivity of nitramines from molecular structures via support vector machine Wang R, Sun L, Kang QS, Li ZM Journal of Loss Prevention in The Process Industries, 26(6), 1193, 2013 |
4 |
The Correlation between Electric Spark Sensitivity of Polynitroaromatic Compounds and Their Molecular Electronic Properties Zhi CY, Cheng XL Propellants Explosives Pyrotechnics, 35(6), 555, 2010 |
5 |
Reliable prediction of electric spark sensitivity of nitramines: A general correlation with detonation pressure Keshavarz MH, Pouretedal HR, Semnani A Journal of Hazardous Materials, 167(1-3), 461, 2009 |
6 |
Theoretical prediction of electric spark sensitivity of nitroaromatic energetic compounds based on molecular structure Keshavarz MH Journal of Hazardous Materials, 153(1-2), 201, 2008 |
7 |
New aspects of initiation reactivities of energetic materials demonstrated on nitramines Zeman S Journal of Hazardous Materials, 132(2-3), 155, 2006 |
8 |
Detonation velocities and pressures, and their relationships with electric spark sensitivities for nitramines Wang GX, Xiao HM, Xu XJ, Ju XH Propellants Explosives Pyrotechnics, 31(2), 102, 2006 |