| 625 - 625 |
Molecular Orbital Based Design Guideline for Hypergolic Ionic Liquids Propellants, Explosives, Pyrotechnics (vol 40, pg 144, 2015)
Sengupta D, Vaghjiani GL |
| 627 - 631 |
Study on the Azido-Tetrazolo Tautomerizations of 3,6-Bis(azido)-1,2,4,5-tetrazine
Zhao D, Lv MF, Cai C |
| 632 - 644 |
Thermobaric and Enhanced Blast Explosives - Properties and Testing Methods
Trzcinski WA, Maiz L |
| 645 - 651 |
The Nitrolysis Mechanism of 3,7-Dinitro-1,3,5,7-tetraazabicyclo[3,3,1]nonane
Liu WJ, Xu ZB, Cui KJ, Xue M, Meng ZH, Huang XC, Ge ZX, Lin ZH, Qin GM |
| 652 - 658 |
Preparation and Performance of Nano HMX/TNT Cocrystals
Li HQ, An CW, Guo WJ, Geng XH, Wang JY, Xu WZ |
| 659 - 664 |
Production and Characterization of Composite Nano-RDX by RESS Co-Precipitation
He BD, Stepanov V, Qiu HW, Krasnoperov LN |
| 665 - 673 |
The Development of a Confined Impact Test for Evaluating the Safety of Polymer-Bonded Explosives During Warhead Penetration
Dai XG, Huang Q, Huang FL, Li M, Wen YS, Liu XW |
| 674 - 681 |
Laboratory-Scale Method for Estimating Explosive Performance from Laser-Induced Shock Waves
Gottfried JL |
| 682 - 687 |
Volatile Emissions of Ammonium Nitrate under Flowing Conditions
Steinkamp FL, Giordano B, Collins G, Rose-Pehrsson S |
| 688 - 698 |
Experimental Study and DEM Simulation of Micro-Macro Behavior of TATB Granules During Compaction Using X-ray Tomography
Dai B, Zhang WB, Lan LG, Tian Y |
| 699 - 705 |
CFD Cook-Off Simulation and Thermal Decomposition of Confined High Energetic Material
Asante DO, Kim S, Chae J, Kim H, Oh M |
| 706 - 711 |
Gels as Energy Dissipation Media for Energetic Materials Desensitization
Weitz A, Korogodsky G, Tsoglin A, Grinstein D, Gottlieb L |
| 712 - 719 |
Experiments and Modeling for Biocidal Effects of Explosives
Henderson J, Longbottom AW, Milne AM, Lightstone JM, Milby C, Stamatis D, Svingala FR, Daniels AL, Bensman M, Bohmke M, Miller K |
| 720 - 728 |
Interior Ballistics Two-Phase Reactive Flow Model Applied to Small Caliber Projectile-Gun System
Bougamra A, Lu HL |
| 729 - 734 |
Enhanced Combustion Characteristics of Bismuth Trioxide-Aluminum Nanocomposites Prepared through Graphene Oxide Directed Self-Assembly
Thiruvengadathan R, Staley C, Geeson JM, Chung S, Raymond KE, Gangopadhyay K, Gangopadhyay S |
| 735 - 742 |
Characterization of BPN Pyrotechnic Composition Containing Micro- and Nanometer-Sized Boron Particles
Koc S, Ulas A, Yilmaz NE |
| 743 - 748 |
Shock Tube Effect Inside a Pyrotechnic Igniter
Buttigieg GA, Paine GH, Hsiao RC |
| 749 - 754 |
Combustion of Mechanically Alloyed Aluminum-Magnesium Powders in Steam
Quijano D, Corcoran AL, Dreizin EL |
| 755 - 758 |
Laser Ignition of Various Pyrotechnic Mixtures - an Experimental Study
Sivan J, Haas Y |
| 759 - 764 |
An ab initio Based Structure Property Relationship for Prediction of Ignition Delay of Hypergolic Ionic Liquids
Newsome DA, Vaghjiani GL, Sengupta D |
| 765 - 771 |
Combustion of Aluminum Particles near the Burning Surface in AP/AN Composite Propellants
Doi R, Kuwahara T |
| 772 - 778 |
A Novel Kind of Green Solid Propellant Containing H2O2 Cured at Room Temperature (SPHP)
Zhang YG, Pang AM, Xiao JW, Zeng DW, Yuan H, Li WB, Sun HG, Wang R, Li HT, Xie CS |
| 779 - 785 |
Comparative Study on Infrared Irradiance Emitted from Standard and Real Rocket Motor Plumes
Kim MT, Song S, Yim YJ, Jang MW, Baek G |
