ISL-PU-6039/2011 Ignition Temperature of Aluminum Particles behind an Incident Shock Wave at Different Particle Load FactorsISL-PU-6027/2011 Control of the Functioning Time of an all Secondary Laser Ignited DetonatorISL-PU-6025/2011 Reduced-Sensitivity Nanothermites Based on Filled Carbon NanofibersISL-PR-U-PU-6045/2011 Safer Energetic Materials by a Nanotechnological Approachin: Nanoscale, 2011 © The Royal Society of Chemistry 2011
ISL-PU 674/2010Use of New Warp Interlock Structures against High Velocity ImpactISL-PU 671/2010Heat of Explosion of Energetic Materials: Non-linear BehaviourISL-PU 670/2010Experimental Study of Aluminium Particles Dispersed and Ignited by High ExplosiveISL-PU 636/2010Impressive Change of Reactive Properties of High Explosives Structured and Stabilized at Sano-Scale in an Inert Porous MatrixISL-PU 621/2010Numerical Simulation of Shaped Charges(Text in French)ISL-U-PU 696/2010Reduced-Sensitivity Nanothermites Containing Manganese Oxide Filled Carbon Nanofibers© American Chemical Society, Journal of Physical Chemistry C (2010), Vol. 114, No. 46, pp. 19562-19568ISL-U-PU 683/2010Original Synthesis of Chromium (III) Oxide Nanoparticles©2009 Elsevier Ltd. All rights reserved.Journal of the European Ceramic Society 30 (2010) 911–915ISL-U-PU 633/2010Preparation of Cr2O3 Nanoparticles for Superthermites by the Detonation of an Explosive Nanocomposite Material© Springer-Verlag. Journal of Nanoparticle Research 12 (2010)ISL-U-PU 605/2010The Effect of a Shock Wave on the Ignition Behavior of Aluminum Particles in a Shock Tube© ELSEVIER. Combustion and Flame 157 (2010) 446-454
ISL-PU 657/2009Increase of Gun Performace Using Co-Layered Propellants Based on Nena FormulationsISL-PU 649/2009Study of the Magnetic Flux Density Distribution of Nickel Coated Aluminum FoamsISL-PU 647/2009Nanostructured Ni/n-Al2O3 Metal Matrix Composites Prepared by Pulsed ElectrodepositionISL-PU 646/2009Nano Nickel Strengthened Open Cell Metals Foams under Quasistatic and Dynamic LoadingISL-PU 642/2009Phosphorus as Reducing Agent for ThermitesISL-PU 635/2009Influence of the Charge Mass on the Confinement Volume Ratio in the Case of Internal Thermobaric ExplosionsISL-PU 634/2009Investigation on the Explosion-Driven Dispersion and Combustion of Aluminium ParticlesISL-PU 626/2009Phosphorus Based Nanothermites: a New Generation of Pyrotechnics Illustrated by the Example of n-CuO / Red P MixturesISL-PU 625/2009Structure and Reactivity of CNT/Manganese Oxide NanocompositesISL-PU 618/2009Thermally Driven AFM for Nanoenergetics: A Method to Investigate the Decomposition on the NanoscaleISL-PU 612/2009 Detonation Synthesis of Nanodiamonds: Use of these Nanoparticles in Pyrotechnics (Text in French)ISL-PU 611/2009Zeta Potential Study of Detonation NanodiamondsISL-PU 610/2009An Efficient Purification Method for Detonation NanodiamondsISL-PU 606/2009Use of Nanodiamond as a Reducing Agent in a Chlorate-Based Energetic CompositionISL-PU 604/2009Nanothermites for Space and Defence ApplicationsISL-PU 601/2009Ignition and Combustion of Solid Propellants, - Do we still need basic research?(Text in German)ISL-U-PU 640/2009Detonation Nanodiamonds for Doping Kevlar© Journal of Nanoscience and Nanotechnology, 2010, Vol. 10ISL-U-PU 631/2009Investigation of the Acceleration of Aluminum Particles Behind a Shock Wave Using Instantaneous Laser Doppler Velocimetry© Springer, Shock Waves (2009) 19:125-134ISL-U-PU 627/2009Phosphorus Based Nanothermites: A New Generation of Energetic Materials© Proceedings EMRS, Strasbourg, FR, June 8-12, 2009© Journal of Physics and Chemistry of SolidsISL-U-PU 620/2009Nanocrystalline Alumina Dispersed in Nanocrystalline Nickel: Enhanced Mechanical Properties© Journal of Materials Science, 44 (11): 2725-2735, June 2009ISL-U-PU 620/2009Nanocrystalline Alumina Dispersed in Nanocrystalline Nickel: Enhanced Mechanical Properties© Journal of Materials Science, 44 (11): 2725-2735, June 2009