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Combustion Science and Technology Volume 185, 2013 - Issue 9
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Original Articles

Nearly Pure Aluminum Powders with Modified Protective Surface

Shasha Zhang Otto H. York Department of Chemical, Biological and Pharmaceutical Engineering, New Jersey Institute of Technology, University Heights, Newark, New Jersey, USA
,
Mirko Schoenitz Otto H. York Department of Chemical, Biological and Pharmaceutical Engineering, New Jersey Institute of Technology, University Heights, Newark, New Jersey, USA
&
Edward L. Dreizin Otto H. York Department of Chemical, Biological and Pharmaceutical Engineering, New Jersey Institute of Technology, University Heights, Newark, New Jersey, USACorrespondence[email protected]
Pages 1360-1377 | Received 21 Jan 2013, Accepted 17 Apr 2013, Published online: 12 Aug 2013

REFERENCES

  • Badiola , C. , and Dreizin , E.L. 2012 . On weak effect of particle size on its burn time for micron-sized aluminum powders . Combust. Sci. Technol. , 184 , 1993 .
  • Badiola , C. , Gill , R.J. , and Dreizin , E.L. 2011 . Combustion characteristics of micron-sized aluminum particles in oxygenated environments . Combust. Flame , 158 , 2064 .
  • Cheng , J. , Hng , H.H. , Ng , H.Y. , Soon , P.C. , and Lee , Y.W. 2009 . Improved thermal properties of Al powders coated with submicron-sized hollow nickel particles . J. Mater. Res. , 24 , 3220 .
  • Chowdhury , S. , Sullivan , K. , Piekiel , N. , Zhou , L. , and Zachariah , M.R. 2010 . Diffusive vs explosive reaction at the nanoscale . J. Phys. Chem. C , 114 , 9191 .
  • Chung , S.W. , Guliants , E.A. , Bunker , C.E. , Hammerstroem , D.W. , Deng , Y. , Burgers , M.A. , Jelliss , P.A. , and Buckner , S.W. 2009 . Capping and passivation of aluminum nanoparticles using alkyl-substituted epoxides . Langmuir , 25 , 8883 .
  • Corcoran , A.L. , Hoffmann , V.K. , and Dreizin , E.L. 2013. Aluminum particle combustion in turbulent flames. Combust. Flame , 160, 835.
  • Crouse , C.A. , Pierce , C.J. , and Spowart , J.E. 2012 . Synthesis and reactivity of aluminized fluorinated acrylic (AlFA) nanocomposites . Combust. Flame , 159 , 3199 .
  • Dreizin , E.L. 2009 . Metal-based reactive nanomaterials . Prog. Energy Combust. Sci. , 35 , 141 .
  • Dreizin , E.L. , Badiola , C. , Zhang , S. , and Aly , Y. 2011 . Particle combustion dynamics of metal-based reactive materials . Int. J. Energetic Mater. Chem. Propul. , 10 , 297 .
  • Gill , R.J. , Badiola , C. , and Dreizin , E.L. 2010 . Combustion times and emission profiles of micron-sized aluminum particles burning in different environments . Combust. Flame , 157 , 2015 .
  • Gill , R.J. , Mohan , S. , and Dreizin , E.L. 2009 . Sizing and burn time measurements of micron-sized metal powders . Rev. Sci. Instrum. , 80 , 064101 .
  • Henz , B.J. , Hawa , T. , and Zachariah , M.R. 2010a . Atomistic simulation of the aluminum nanoparticle oxidation mechanism. AIAA Paper 2010–336.
  • Henz , B.J. , Hawa , T. , and Zachariah , M.R. 2010b . On the role of built-in electric fields on the ignition of oxide coated nanoaluminum: Ion mobility versus fickian diffusion . J. Appl. Phys. , 107 , 024901 .
  • Johnson , C. , Foley , T.J. , and Higa , K.T. 2005 . Influence of activating compounds on oxidation mechanisms of aluminum powders . MRS Proc. , 896 , 159 .
  • Jouet , R.J. , Warren , A.D. , Rosenberg , D.M. , Bellitto , V.J. , Park , K. , and Zachariah , M.R. 2005 . Surface passivation of bare aluminum nanoparticles using perfluoroalkyl carboxylic acids . Chem. Mater. , 17 , 2987 .
  • Kissinger , H.E. 1957 . Reaction kinetics in differential thermal analysis . Anal. Chem. , 29 , 1702 .
  • Lebedeva , E.A. , Tutubalina , I.L. , Val'tsifer , V.A. , Strel'nikov , V.N. , Astaf'eva , S.A. , and Beketov , I.V. 2012 . Agglomeration of the condensed phase of energetic condensed systems containing modified aluminum . Combust. Explos. Shock Waves , 48 , 694 .
  • Lewis , W.K. , Rosenberger , A.T. , Gord , J.R. , Crouse , C.A. , Harruff , B.A. , Fernando , K.A.S. , Smith , M.J. , Phelps , D.K. , Spowart , J.E. , Guliants , E.A. , and Bunker , C.E. 2010 . Multispectroscopic (FTIR, XPS, and TOFMS-TPD) investigation of the core-shell bonding in sonochemically prepared aluminum nanoparticles capped with oleic acid . J. Phys. Chem. C , 114 , 6377 .
  • Lynch , P. , Krier , H. , and Glumac , N. 2009 . A correlation for burn time of aluminum particles in the transition regime . Proc. Combust. Inst. , 32 , 1887 .
  • McBride , B.J. , and Gordon , S. 1996 . Computer program for calculation of complex chemical equilibrium compositions and applications II. Users manual and program description. Report No. NASA RP-1311, National Aeronautics and Space Administration, Cleveland, OH.
  • Mohan , S. , Furet , L. , and Dreizin , E.L. 2010 . Aluminum particle ignition in different oxidizing environments . Combust. Flame , 157 , 1356 .
  • Rai , A. , Park , K. , Zhou , L. , and Zachariah , M.R. 2006 . Understanding the mechanism of aluminium nanoparticle oxidation . Combust. Theor. Model. , 10 , 843 .
  • Santhanam , P.R. , Hoffmann , V.K. , Trunov , M.A. , and Dreizin , E.L. 2010 . Characteristics of aluminum combustion obtained from constant-volume explosion experiments . Combust. Sci. Technol. , 182 , 904 .
  • Schoenitz , M. , Patel , B. , Agboh , O. , and Dreizin , E.L. 2010 . Oxidation of aluminum powders at high heating rates . Thermochim. Acta , 507–508 , 115 .
  • Schoenitz , M. , Ward , T.S. , and Dreizin , E.L. 2005 . Fully dense nano-composite energetic powders prepared by arrested reactive milling . Proc. Combust. Inst. , 30 , 2071 .
  • Stamatis , D. , Jiang , Z. , Hoffmann , V.K. , Schoenitz , M. , and Dreizin , E.L. 2009 . Fully dense, aluminum-rich Al-CuO nanocomposite powders for energetic formulations . Combust. Sci. Technol. , 181 , 97 .
  • Suryanarayana , C. 2001. Mechanical alloying and milling. Prog. Mater. Sci. , 46, 1.
  • Tao , H. , Jin , B. , Zhong , W. , Wang , X. , Ren , B. , Zhang , Y. , and Xiao , R. 2010 . Discrete element method modeling of non-spherical granular flow in rectangular hopper . Chem. Eng. Process. , 49 , 151 .
  • Trunov , M.A. , Schoenitz , M. , and Dreizin , E.L. 2006 . Effect of polymorphic phase transformations in alumina layer on ignition of aluminium particles . Combust. Theor. Model. , 10 , 603 .
  • Trunov , M.A. , Schoenitz , M. , Zhu , X. , and Dreizin , E.L. 2005 . Effect of polymorphic phase transformations in Al2O3 film on oxidation kinetics of aluminum powders . Combust. Flame , 140 , 310 .
  • Vummidi , S.L. , Aly , Y. , Schoenitz , M. , and Dreizin , E.L. 2010 . Characterization of fine nickel-coated aluminum powder as potential fuel additive . J. Propul. Power , 26 , 454 .
  • Yagodnikov , D.A. , and Voronetskii , A.V. 1997 . Experimental and theoretical study of the ignition and combustion of an aerosol of encapsulated aluminum particles . Combust. Explos. Shock Waves , 33 , 49 .
  • Yavor , Y. , and Gany , A. 2012 . Analysis and improvement of aluminum combustion in solid propellants. In 52nd Israel Annual Conference on Aerospace Sciences (Tel-Aviv and Haifa, Israel) , Technion Israel Institute of Technology , Haifa , Israel , vol. 2 , p. 1310 .
  • Yetter , R.A. , Risha , G.A. , and Son , S.F. 2009 . Metal particle combustion and nanotechnology . Proc. Combust. Inst. , 32 , 1819 .
  • Zhang , S. , Badiola , C. , Schoenitz , M. , and Dreizin , E.L. 2012b . Oxidation, ignition, and combustion of Al · I2 composite powders . Combust. Flame , 159 , 1980 .
  • Zhang , S. , Schoenitz , M. , and Dreizin , E.L. 2010a . Iodine release, oxidation, and ignition of mechanically alloyed Al-I composites . J. Phys. Chem. C , 114 , 19653 .
  • Zhang , S. , Schoenitz , M. , and Dreizin , E.L. 2010b . Mechanically alloyed Al-I composite materials . J. Phys. Chem. Solids , 71 , 1213 .
  • Zhang , S. , Schoenitz , M. , and Dreizin , E.L. 2012a . Oxidation, ignition and combustion of Al-hydrocarbon composite reactive powders . Int. J. Energetic Mater. Chem. Propul. , 11 , 353 .

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