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[ subject:"Engineering, Materials Science." ]
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Effect of green microstructure on th...
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Effect of green microstructure on the densification and microstructural evolution of alumina.
紀錄類型:
書目-語言資料,印刷品 : Monograph/item
正題名/作者:
Effect of green microstructure on the densification and microstructural evolution of alumina./
作者:
Yeh, Tsung-Shou.
面頁冊數:
472 p.
附註:
Chairman: Michael D. Sacks.
Contained By:
Dissertation Abstracts International51-05B.
標題:
Engineering, Materials Science. -
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=9028585
Effect of green microstructure on the densification and microstructural evolution of alumina.
Yeh, Tsung-Shou.
Effect of green microstructure on the densification and microstructural evolution of alumina.
- 472 p.
Chairman: Michael D. Sacks.
Thesis (Ph.D.)--University of Florida, 1989.
The effect of particle packing, particle size and particle size distribution on the densification behavior and microstructural evolution during sintering was investigated. High-purity, agglomerate-free alumina powders which had controlled particle size distributions were prepared by sedimentation classification. The effect of particle packing on sintering was studied using a powder with a very narrow particle size distribution. Green compacts with a wide range of packing characteristics were prepared using both suspension processing and dry pressing. Particle packing arrangements had significant effects on the densification kinetics and the path of microstructural evolution. In order to study the effect of particle size distribution, powders with constant median size and varying log-normal standard deviation were prepared. Powder compacts were prepared by slip casting concentrated, well-dispersed suspensions. Suspension rheology, green compact characteristics, densification and microstructural evolution were highly dependent upon the width of particle size distribution. Homogenous green bodies with high relative density and fine pore size were prepared by slip casting a fine-sized, agglomerate-free dispersion. Samples with nearly full density and fine grain size could be obtained at low sintering temperature.Subjects--Topical Terms:
1017759
Engineering, Materials Science.
Effect of green microstructure on the densification and microstructural evolution of alumina.
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The effect of particle packing, particle size and particle size distribution on the densification behavior and microstructural evolution during sintering was investigated. High-purity, agglomerate-free alumina powders which had controlled particle size distributions were prepared by sedimentation classification. The effect of particle packing on sintering was studied using a powder with a very narrow particle size distribution. Green compacts with a wide range of packing characteristics were prepared using both suspension processing and dry pressing. Particle packing arrangements had significant effects on the densification kinetics and the path of microstructural evolution. In order to study the effect of particle size distribution, powders with constant median size and varying log-normal standard deviation were prepared. Powder compacts were prepared by slip casting concentrated, well-dispersed suspensions. Suspension rheology, green compact characteristics, densification and microstructural evolution were highly dependent upon the width of particle size distribution. Homogenous green bodies with high relative density and fine pore size were prepared by slip casting a fine-sized, agglomerate-free dispersion. Samples with nearly full density and fine grain size could be obtained at low sintering temperature.
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http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=9028585
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