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DROPLETS AND PARTICLES IN SPRAYS: TAILORING PARTICLE PROPERTIES WITHIN SPRAY PROCESSES 被引量:1

DROPLETS AND PARTICLES IN SPRAYS: TAILORING PARTICLE PROPERTIES WITHIN SPRAY PROCESSES
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摘要 Particle generation via atomization and spray processes is a widely applied method for powder production. By means of atomization processes, the relevant particle properties may be tailored to the powder user's need in a wide range. Understanding and control of the main subprocesses of atomization is a key feature for choosing a suitable type of spray process and operation conditions. Tailoring particle properties and extending the applications of particle production beyond the current limits is also possible in this way. This contribution highlights some features of spray processes for powder production, namely the gas- and fluid-dynamic processes involved, the materials-related subprocesses, and the formation of the multiphase flow in the spray. As an example, the production of fibre- or sphere-shaped particles from melt atomization is discussed. Particle generation via atomization and spray processes is a widely applied method for powder production. By means of atomization processes, the relevant particle properties may be tailored to the powder user's need in a wide range. Understanding and control of the main subprocesses of atomization is a key feature for choosing a suitable type of spray process and operation conditions. Tailoring particle properties and extending the applications of particle production beyond the current limits is also possible in this way. This contribution highlights some features of spray processes for powder production, namely the gas- and fluid-dynamic processes involved, the materials-related subprocesses, and the formation of the multiphase flow in the spray. As an example, the production of fibre- or sphere-shaped particles from melt atomization is discussed.
作者 Udo Fritsching
机构地区 Institute for Materials Science
出处 《China Particuology》 SCIE EI CAS CSCD 2005年第1期125-133,共9页
关键词 particle formation particle properties spray processes ATOMIZATION particle formation, particle properties, spray processes, atomization
分类号 TQ02 [化学工程]
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参考文献28

  • 1[1]Albrecht, H.-E., Borys, M., Damaschke, N. & Tropea, C. (2003).Laser Doppler and Phase Doppler Measurement Techniques.Berlin: Springer Verlag,.
  • 2[2]Bayvel, L. & Orzechowski, Z. (1993). Liquid Atomization. Washington DC: Taylor & Francis Publisher.
  • 3[3]Bergmann, D., Fritsching, U. & Bauckhage, K. (2000). A mathematical model for cooling and rapid solidification of molten metal droplets. Int. J. Therm. Sci., 39, 53-62.
  • 4[4]Crowe, C. T., Troutt, T. R. & Chung, J. N. (1996). Numerical models for two-phase turbulent flows. Annu. Rev. Fluid Mech., 28,11-43.
  • 5[5]Crowe, C. T., Sommerfeld, M. & Tsuji, Y. (1998). Multiphase Flows with Drops and Particles. Boca Raton: CRC Press.
  • 6[6]Czisch, C., Lohner, H., Fritsching, U. & Bauckhage, K. (2003).Powder generation from melts with high viscosity. Proceedings of International Conference on Liquid Atomization and Spray Systems ICLASS, Sorrento, Italy.
  • 7[7]Edwards, C. F., Marx, K. D. & Chin, W. K. (1994). Limitations of the ideal phase-doppler system; extension to spatially and temporally inhomogeneous particle flows. Atomization Sprays, 4,1-40.
  • 8[8]Faeth, G. M. (1990). Structure and atomization properties of dense turbulent sprays. 23rd Symposium on Combustion (pp. 1345-1352), The Combustion Institute, Pittsburgh.
  • 9[9]Fritsching, U. & Bauckhage, K. (1992). Investigations on the atomization of molten metals: the coaxial jet and the gas flow in the nozzle near field. PHOENICS J. Comput. Fluid Dyn. Its Appl., 5(1), 81-98.
  • 10[10]Fritsching, U., Bergmann, D., Heck, U. & Bauckhage, K. (1999).Particle size distribution width in gas atomization of molten metals. 1999 International Conference on Powder Metallurgy &Particulate Materials, June 20-24, Vancouver, Canada.

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  • 1陈华伦.反溅射再淀积现象研究[J].微电子技术,1996,24(1):46-48. 被引量:1
  • 2K.A.Olive,K.Agashe,C.Amsler,M.Antonelli,J.-F.Arguin,D.M.Asner,H.Baer,H.R.Band,R.M.Barnett,T.Basaglia,C.W.Bauer,J.J.Beatty,V.I.Belousov,J.Beringer,G.Bernardi,S.Bethke,H.Bichsel,O.Biebe,E.Blucher,S.Blusk,G.Brooijmans,O.Buchmueller,V.Burkert,M.A.Bychkov,R.N.Cahn,M.Carena,A.Ceccucci,A.Cerr,D.Chakraborty,M.-C.Chen,R.S.Chivukula,K.Copic,G.Cowan,O.Dahl,G.D'Ambrosio,T.Damour,D.de Florian,A.de Gouvea,T.DeGrand,P.de Jong,G.Dissertor,B.A.Dobrescu,M.Doser,M.Drees,H.K.Dreiner,D.A.Edwards,S.Eidelman,J.Erler,V.V.Ezhela,W.Fetscher,B.D.Fields,B.Foster,A.Freitas,T.K.Gaisser,H.Gallagher,L.Garren,H.J.Gerber,G.Gerbier,T.Gershon,T.Gherghetta,S.Golwala,M.Goodman,C.Grab,A.V.Gritsan,C.Grojean,D.E.Groom,M.Grnewald,A.Gurtu,T.Gutsche,H.E.Haber,K.Hagiwara,C.Hanhart,S.Hashimoto,Y.Hayato,K.G.Hayes,M.Heffner,B.Heltsley,J.J.Hernandez-Rey,K.Hikasa,A.Hocker,J.Holder,A.Holtkamp,J.Huston,J.D.Jackson,K.F.Johnson,T.Junk,M.Kado,D.Karlen,U.F.Katz,S.R.Klein,E.Klempt,R.V.Kowalewski,F.Krauss,M.Kreps,B.Krusche,Yu.V.Kuyanov,Y.Kwon,O.Lahav,J.Laiho,P.Langacker,A.Liddle,Z.Ligeti,C.-J.Lin,T.M.Liss,L.Littenberg,K.S.Lugovsky,S.B.Lugovsky,F.Maltoni,T.Mannel,A.V.Manohar,W.J.Marciano,A.D.Martin,A.Masoni,J.Matthews,D.Milstead,P.Molaro,K.Monig,F.Moortgat,M.J.Mortonson,H.Murayama,K.Nakamura,M.Narain,P.Nason,S.Navas,M.Neubert,P.Nevski,Y.Nir,L.Pape,J.Parsons,C.Patrignani,J.A.Peacock,M.Pennington,S.T.Petcov,Kavli IPMU,A.Piepke,A.Pomarol,A.Quadt,S.Raby,J.Rademacker,G.Raffel,B.N.Ratcliff,P.Richardson,A.Ringwald,S.Roesler,S.Rolli,A.Romaniouk,L.J.Rosenberg,J,L.Rosner,G.Rybka,C.T.Sachrajda,Y.Sakai,G.P.Salam,S.Sarkar,F.Sauli,O.Schneider,K.Scholberg,D.Scott,V.Sharma,S.R.Sharpe,M.Silari,T.Sjostrand,P.Skands,J.G.Smith,G.F.Smoot,S.Spanier,H.Spieler,C.Spiering,A.Stahl,T.Stanev,S.L.Stone,T.Sumiyoshi,M.J.Syphers,F.Takahashi,M.Tanabashi,J.Terning,L.Tiator,M.Titov,N.P.Tkachenko,N.A.Tornqvist,D.Tovey,G.Valencia,G.Venanzoni,M.G.Vincter,P.Vogel,A.Vogt,S.P.Wakely,W.Walkowiak,C.W.Walter,D.R.Ward,G.Weiglein,D.H.Weinberg,E.J.Weinberg,M.White,L.R.Wiencke,C.G.Wohl,L.Wolfenstein,J.Womersley,C.L.Woody,R.L.Workman,A.Yamamoto,W.-M.Yao,G.P.Zeller,O.V.Zenin,J.Zhang,R.-Y.Zhu,F.Zimmermann,P.A.Zyla,G.Harper,V.S.Lugovsky,P.Schaffner.SUMMARY TABLES OF PARTICLE PROPERTIES[J].Chinese Physics C,2014,38(9):27-29.
  • 3Highlights[J].内蒙古广播与电视技术,2008,25(2).
  • 4Christian Helgert,Thomas Pertsch,Carsten Rockstuhl,Ekaterina Pshenay-Severin,Christoph Menzel,Ernst-Bernhard Kley,Arkadi Chipouline,Christoph Etrich,Uwe Huebner,Andreas Tuennermann,Falk Lederer.Tailoring the properties of optical metamaterials[J].中国光学与应用光学,2010,3(1):1-10.
  • 5林政道,劉致爲,林恭如.Luminescent-wavelength tailoring silicon-rich silicon nitride LED[J].Chinese Optics Letters,2009,7(4):277-279.
  • 6王伟,杨子文,于涛,邢兵,王磊,李睿,杜为民,胡晓东.变条长实验测量GaN增益时条宽的影响[J].发光学报,2010,31(1):86-90. 被引量:1
  • 7使用喷雾法的纳米复合磁体制造方法[J].磁性材料及器件,2005,36(1):44-44.
  • 8Highlights of the 6th China Standardization Forum[J].China Standardization,2009,54(3):5-5.
  • 9B.Timotijevic,G.Mashanovich,A.Michaeli,O.Cohen,V.M.N.Passaro,J.Crnjanski,G.T.Reed.Tailoring the spectral response of add/drop single and multiple resonators in silicon-on-insulator[J].Chinese Optics Letters,2009,7(4):291-295.
  • 10Dandan Wang Jeffrey Lam Zhihong Mai.Tailoring the Sharpness of Tungsten Nanotips via Laser Irradiation Enhanced Etching in KOH[J].通讯和计算机(中英文版),2013,10(3):381-384.
China Particuology
2005年 第1期

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