| 323 - 327 |
Two Decades of Research on Nano-Energetic Materials
Rossi C |
| 329 - 336 |
Effects of Different Nano-Metric Particles on the Properties of Composite Solid Propellants
Pang WQ, Fan XZ, Zhao FQ, Zhang W, Xu HX, Yu HJ, Xie WX, Yan N, Liu FL |
| 337 - 347 |
The Effect of Silicon Powder Characteristics on the Combustion of Silicon/Teflon/Viton Nanoenergetics
Terry BC, Lin YC, Manukyan KV, Mukasyan AS, Son SF, Groven LJ |
| 348 - 364 |
A Decade of Porous Silicon as Nano-Explosive Material
du Plessis M |
| 365 - 373 |
Magnetron Sputtered Al-CuO Nanolaminates: Effect of Stoichiometry and Layers Thickness on Energy Release and Burning Rate
Bahrami M, Taton G, Conedera V, Salvagnac L, Tenailleau C, Alphonse P, Rossi C |
| 374 - 382 |
Effect of Nitrocellulose Gasifying Binder on Thrust Performance and High-g Launch Tolerance of Miniaturized Nanothermite Thrusters
Staley CS, Raymond KE, Thiruvengadathan R, Herbst JJ, Swaszek SM, Taylor RJ, Gangopadhyay K, Gangopadhyay S |
| 383 - 389 |
Preparation of Nano-RDX by Evaporation Assisted Solvent-Antisolvent Interaction
Kumar R, Siril PF, Soni P |
| 390 - 396 |
Formulation and Characterizations of Nanoenergetic Compositions with Improved Safety
Wuillaume A, Beaucamp A, David-Quillot F, Erades C |
| 397 - 401 |
Synthesis and Desensitization of Nano-beta-HMX
Risse B, Schnell F, Spitzer D |
| 402 - 406 |
Nanoparticle Triaminotrinitrobenzene Fabricated by Carbon Dioxide Assisted Nebulization with a Bubble Dryer
Hotchkiss PJ, Wixom RR, Tappan AS, Rosenberg DM, Zelenok MD |
| 407 - 415 |
The Role of Fuel Particle Size on Flame Propagation Velocity in Thermites with a Nanoscale Oxidizer
Sullivan KT, Kuntz JD, Gash AE |
| 416 - 422 |
Expansion Behavior and Temperature Mapping of Thermites in Burn Tubes as a Function of Fill Length
Densmore JM, Sullivan KT, Gash AE, Kuntz JD |
| 423 - 433 |
Modeling Ignition and Thermal Wave Progression in Binary Granular Pyrotechnic Compositions
Knapp S, Weiser V, Kelzenberg S, Eisenreich N |
| 434 - 443 |
Factors Influencing Temperature Fields during Combustion Reactions
Kappagantula K, Crane C, Pantoya M |
| 444 - 453 |
Ignition of Nanocomposite Thermites by Electric Spark and Shock Wave
Shaw WL, Dlott DD, Williams RA, Dreizin EL |
| 454 - 462 |
Explosive Initiation of Various Forms of Ti/2B Reactive Materials
Clemenson MD, Johnson S, Krier H, Glumac N |
| 463 - 470 |
Preparation and Characterization of Aqueous Nanothermite Inks for Direct Deposition on SCB Initiators
Nellums RR, Son SF, Groven LJ |
