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Potential Usage of Energetic Nano-sized Powders for Combustion and Rocket Propulsion AA1.1
Kenneth K. Kuo, Grant A. Risha, Brian J. Evans, and Eric Boyer
Effects of Very Small Particle Size on Processing and Safety Properties of Energetic Formulations AA1.2
Robert Wardle, Kenneth Lee, Jeff Akester, and Paul Braithwaite
Energetic Materials Development at Technanogy Materials Development AA1.3
Kevin C. Walter, Christopher E. Aumann, R. Douglas Carpenter, Edward H. O'Neill, and David R. Pesiri
Characterization of Airborne Ultrafine and Nanometer Particles During Energetic Material Synthesis and Testing AA1.5
Meng-Dawn Cheng and Charles M. Jenkins
Synthesis and Characterization of Nanocrystalline Oxidizer/Monopropellant Formulations AA2.1
Thomas B. Brill, Bryce C. Tappan, and Jun Li
Nanostructured Energetic Materials With Sol-Gel Methods AA2.2
Alexander E. Gash, Joe H. Satcher Jr., Randall L. Simpson, and Brady J. Clapsaddle
Surface Passivation of Bare Aluminum Nanoparticles Using Perfluoroalkyl Carboxylic Acids AA2.4
R. Jason Jouet, Andrea D. Warren, David M. Rosenberg, and Victor J. Bellitto
The Dispersion and Polymer Coating of Ultrafine Aluminum Powders by the Ziegler Natta Reaction AA2.5
Cédric Roy, Charles Dubois, Pierre Lafleur, and Patrick Brousseau
Preparation of Energetic Metastable Nano-Composite Materials by Arrested Reactive Milling AA2.6
M. Schoenitz, T. Ward, and E.L. Dreizin
Synthesis and Characterization of Mixed Metal Oxide Nanocomposite Energetic Materials AA2.7
Brady J. Clapsaddle, Lihua Zhao, Alex E. Gash, Joe H. Satcher Jr., Kenneth J. Shea, Michelle L. Pantoya, and Randall L. Simpson
Oxidation Processes and Phase Changes in Metastable Al-Ti Mechanical Alloys AA3.4
Xiaoying Zhu, Mirko Schoenitz, and Edward L. Dreizin
The Catalytic Effect on Vertically Aligned Carbon Nanotubes AA3.5
Nam Seo Kim, Seung Yong Bae, and Jeunghee Park
Combustion Synthesis of Nanoscale Oxide Powders: Mechanism, Characterization and Properties AA4.1
Arvind Varma, Alexander S. Mukasyan, Kishori T. Deshpande, Pavol Pranda, and Peter R. Erri
Combustion Synthesis of NiTi–TiC Composites With Controlled Porosity for Biomedical Applications AA4.5
Douglas E. Burkes, Guglielmo Gottoli, John J. Moore, Hu Chun Yi, and Reed A. Ayers
Nickel Aluminide Superalloys Created by SHS of Nano-Particle Reactants AA4.6
Emily M. Hunt, John J. Granier, Keith B. Plantier, and Michelle L. Pantoya
Interface Properties of Al/Ni Multilayers as Deposited and Following Volume Combustion Synthesis AA4.7
M. Holtz, D. Aurongzeb, M. Daugherty, A. Chandolu, J. Yun, J. M. Berg, and H. Temkin
Ultrafast Spectroscopy of Laser-Initiated Nanoenergetic Materials AA5.1
Yanqiang Yang, Zhaoyong Sun, Shufeng Wang, Selezion A. Hambir, Hyunung Yu, and Dana D. Dlott
Performance and Characterization of Nanoenergetic Materials at Los Alamos AA5.2
Steven F. Son
Ignition and Combustion Behaviors of Nanocomposite Al/MoO3 AA5.3
John J. Granier and Michelle L. Pantoya
The Shock Initiation and High Strain Rate Mechanical Characterization of Ultrafine Energetic Powders and Compositions AA5.4
J.E. Field, S.M. Walley, W.G. Proud, J.E. Balzer, M.J. Gifford, S.G. Grantham, M.W. Greenaway, and C.R. Siviour
Application and Characterization of Nanomaterials in Energetic Compositions AA5.6
A.E.D.M. van der Heijden , R.H.B. Bouma, A.C. van der Steen, and H.R. Fischer
Embedded Cluster Model: Application to Molecular Crystals AA6.2
Maija M. Kuklja, Frank J. Zerilli, and Peter Sushko
Reactivity of Nanosize Aluminum With Metal Oxides and Water Vapor AA6.4
Jan A. Puszynski
Nanofractography of Composition B Fracture Surfaces With AFM AA6.5
Y.D. Lanzerotti, J. Sharma, R.W. Armstrong, R.L. McKenney, and T.R. Krawietz
Characterization of Nano-Sized Particles for Propulsion Applications AA6.6
Grant A. Risha, Eric Boyer, Brian Evans, Kenneth K. Kuo, and Rafaat Malek
Underwater Explosive Behavior of Compositions Containing Nanometric Aluminium Powder AA7.1
Leslie R. Bates
Design of High-Energetic Materials at the Nanoscale AA7.2
Bijan K. Rao and Purusottam Jena
Modeling Laser Generated Shock Damage and Thermo-Mechanical Chaos in Nanoparticles AA7.4
Bernard S. Gerstman
Direct Evidence of Chemical Reactions Induced by Shear-Strains AA7.6
John J. Gilman
Nanoscale Modeling of Shock-Induced Deformation of Diamond AA7.7
S.V. Zybin, I.I. Oleinik, M.L. Elert, and C.T. White
Formation of Nanostructured Energetic Materials via Modified Sol-Gel Synthesis AA7.8
Jeremy Walker and Rina Tannenbaum
First-Principles Equation of State for an Energetic Intermetallic Mixture AA8.3
X. Lu and S.Hanagud
Molecular Dynamics Studies of Nanoparticles of Energetic Materials AA8.5
Saman Alavi, Gustavo F. Velardez, and Donald L. Thompson
Single-Wall Carbon Nanotubes Field Emission Properties: A Theoretical Study of the Effects of Cs AA8.6
Brahim Akdim, Xiaofeng Duan, Donald A. Shiffler, and Ruth Pachter
Nanoscale Energetics With Carbon Nanotubes AA9.1
Yubing Wang, Sanjay Malhotra, and Zafar Iqbal
Synthesis and Characterization of Manganese Doped Ferroxane Nanoparticles AA9.4
Maria M. Cortalezzi, Jerome Rose, Eliza Tsui, Andrew R. Barron, Jean-Yves Bottero, and Mark Wiesner
High-Resolution TEM Characterization of Carbon Aerogels as Catalyst Supports AA9.5
Dafei Kang, Ying Zhang, Carl Saquing, Can Erkey, and Mark Aindow
Nanofibrous Manganese Dioxide for Decomposition of Volatile Organic Compounds AA9.6
H. Chen, T.D. Xiao, and S. Liu
Cutting Reactive Foils Without Igniting Them (A Femtosecond Laser Machining Approach) AA9.8
Yoosuf N. Picard, Hsiao-Hua Liu, Stephen J. Speys, Joel P. McDonald, David P. Adams, Timothy P. Weihs, and Steven M. Yalisove
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