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RESS技术在无机粉体制备中的应用 被引量:1

The Applications of RESS in the Preparing of Inorganic Powders
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摘要 超临界流体快速膨胀法 (RESS)制备无机粉体是近年来发展起来的一种极具应用前景的粉体制备新方法。笔者介绍了超临界流体的特性、RESS技术及其影响因素 。 The rapid expansion of supercrtical solution technology(RESS) is a recent development with a good prospect to prepare inorganic powders.In this paper,the charactristics of supercritical fluid,the process of RESS,the factors which influenced the process of RESS were introduced.At last,the applications of RESS in the preparing of inorganic powders were summed up.
作者 牟善勇 王秀峰 江洪涛
机构地区 陕西科技大学材料科学与工程学院
出处 《陶瓷》 CAS 2004年第2期21-24,共4页 Ceramics
关键词 超临界流体快速膨胀法 RESS 制备 无机粉体 Supercritical fluid RESS Inorganic powders
分类号 TB44 [一般工业技术]
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参考文献22

  • 1李志义.用超临界溶液快速膨胀法制备超细粉体[J].中国粉体技术,2000,6(5):25-28. 被引量:12
  • 2Adschiri T, Arai K. Hydrothermal Science handbook. Gihodo,Tokyo, 1997
  • 3杨基础,沈忠耀.超临界流体技术与超细颗粒的制备[J].化工进展,1995,14(2):28-31. 被引量:24
  • 4Garrabos Y, Leneindre B, Subra P, et al. Pommier, Ann.Chim. Fr., 1992(17) :55 - 58
  • 5Amis E S. Sovvent effects on reaction rates and mechanisms.Academic Press,New York,1996
  • 6Arai K.New Ceramics.,1995,7(2):121 - 124
  • 7Matson D W, Fulton J L, Petersen R C. Rapid expansion of supercitical fluid solutions. Ind Eng Chem Res., 1987,26(12) :2 298 ~ 2305
  • 8Shaub G R, Brennecke J F, Mc Geady M J. Radial model for particle formation from the rapid expansion of supercritical solutions.Supercrit Fluids., 1995,8(4) :318 328 ~ 318 331
  • 9Debenedetti P G, Kumar S K. Infinite dilution fugacity coefficients and general behavior of dilute binary systems. AIChE., 1986,32(8):1 253~ 1 259
  • 10Kwauk X,Debenedetti P G.Aerosol sci.,1993,24(3):445- 449

二级参考文献4

共引文献45

同被引文献23

  • 1REVERCHON E,PALLADO P.Hydrodynamic modeling of the RESS process[J].J Supercrit Fluids,1996,9 (4):216-221.
  • 2SUBRA P,BERROY P,VEGA A,et al.Process performances and characteristics of powders produced using supercritical CO2 as solvent and antisolvent[J].Powder Technology,2004,142:13-22.
  • 3GALLAGHER P M,COFFEY M P,KRUKONIS V J,et al.Supercritical fluid science and technology[R].ACS Symp Series 406.Washington D C:ACS,1989.
  • 4HAKATA Y,HAYASH H,ARAIK.Fine particle formation using supercritical fluids[J].Current Opinion in Solids State and Materials Science,2003,7:341-351.
  • 5RVERCHON E.Supercritical antisolvent precipitation of micro-and nano-particles[J].J Supercrit Fluids,1999,15:1 -21.
  • 6HANNA M H,YORK P.Partical engineering by supercritical technologies for powder inhalation drug delivery[C].Proceedings of the Respiratory Drug Delivery Conference V.Arizona:Phoenix,1996.
  • 7SHEKUNOV B Y,BALDYGA J,YORK P.Protein formation by mixing with supercritical antisolvent at high Reynolds numbers[J].Chem Eng Sci,2001,56:1-13.
  • 8SHEKUNOV B Y,BALDYGA J,YORK P.Particle formation by mixing with supercritical antisolvent at high Reynolds numbers[J].Chem Eng Sci,2001,56:2 421 -2 433.
  • 9BRISTOW S,SHEKUNOV T,SHEKUNOV B Y,et al.Analysis of the supersaturation and process with supercritical CO2[J].J Supercrit Fluids,2001,21:257-271.
  • 10MARKKU R,MATTI J,OLLI A,et al.The effect of initial drop size on particle size in the supercritical antisolvent precipitation (SAS) technique[J].J Supercrit Fluids,2002,24:251-263.

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二级引证文献3

陶瓷
2004年 第2期

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