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Combustion Science and Technology Volume 181, 2008 - Issue 1
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Original Articles

Fully Dense, Aluminum-Rich Al-CuO Nanocomposite Powders for Energetic Formulations

Demitrios Stamatis New Jersey Institute of Technology, Newark, NJ, USA
,
Zhi Jiang New Jersey Institute of Technology, Newark, NJ, USA
,
Vern K. Hoffmann New Jersey Institute of Technology, Newark, NJ, USA
,
Mirko Schoenitz New Jersey Institute of Technology, Newark, NJ, USA
&
Edward L. Dreizin New Jersey Institute of Technology, Newark, NJ, USACorrespondence[email protected]
Pages 97-116 | Published online: 29 Dec 2008

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Wei Shi, Baoxin Dai, Baozhong Zhu, Yunlan Sun & Ying Chen. (2023) Potassium fluoride improving the ignition and combustion performance of micron-sized aluminum particles in high temperature water vapor. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects 45:2, pages 4335-4346.
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Pengfei He, Yajun Wang, Shihui Li & Yi Wan. (2021) Cathodic electrophoretic deposition and thermal properties of nano aluminum/fluoropolymer metastable intermolecular composite. Journal of Energetic Materials 39:4, pages 399-417.
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Daniel Hastings, Mirko Schoenitz & Edward L. Dreizin. (2020) Zirconium-boron reactive composite powders prepared by arrested reactive milling. Journal of Energetic Materials 38:2, pages 142-161.
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Fei Xiao, Jianmin Li, Xuyuan Zhou & Rongjie Yang. (2018) Preparation of mechanically activated aluminum-rich Al-Co3O4 powders and their thermal properties and reactivity with water steam at high temperature. Combustion Science and Technology 190:11, pages 1935-1949.
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Ian Monk, Mirko Schoenitz & Edward L. Dreizin. (2018) The Effect of Heating Rate on Combustion of Fully Dense Nanocomposite Thermite Particles. Combustion Science and Technology 190:2, pages 203-221.
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I. Monk, M. Schoenitz & E. L. Dreizin. (2017) Modes of Ignition of Powder Layers of Nanocomposite Thermites by Electrostatic Discharge. Journal of Energetic Materials 35:1, pages 29-43.
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Ani Abraham, Ziyue Zhong, Ruodong Liu, Sergey A. Grinshpun, Michael Yermakov, Reshmi Indugula, Mirko Schoenitz & Edward L. Dreizin. (2016) Preparation, Ignition, and Combustion of Mg·S Reactive Nanocomposites. Combustion Science and Technology 188:8, pages 1345-1364.
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RayonA. Williams, Mirko Schoenitz & EdwardL. Dreizin. (2014) Validation of the Thermal Oxidation Model for Al/CuO Nanocomposite Powder. Combustion Science and Technology 186:1, pages 47-67.
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Shasha Zhang, Mirko Schoenitz & EdwardL. Dreizin. (2013) Nearly Pure Aluminum Powders with Modified Protective Surface. Combustion Science and Technology 185:9, pages 1360-1377.
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D. Stamatis, A. Ermoline & E.L. Dreizin. (2012) A multi-step reaction model for ignition of fully-dense Al-CuO nanocomposite powders. Combustion Theory and Modelling 16:6, pages 1011-1028.
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Yasmine Aly, Mirko Schoenitz & EdwardL. Dreizin. (2011) Aluminum-Metal Reactive Composites. Combustion Science and Technology 183:10, pages 1107-1132.
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P. R. Santhanam, V. K. Hoffmann, M. A. Trunov & E. L. Dreizin. (2010) Characteristics of Aluminum Combustion Obtained from Constant-Volume Explosion Experiments. Combustion Science and Technology 182:7, pages 904-921.
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