Continuous production of fine TiO sub 2 powders by vapor-phase hydrolysis of titanium tetraisopropoxide

Advanced Ceramic Materials Pub Date : 1988-09-01 DOI:10.1111/J.1551-2916.1988.TB00267.X
F. Kirkbir, H. Komiyama
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引用次数: 10

Abstract

Submicrometer, highly porous (BET area <320 m{sup 2}/g) TiO{sub 2} powders were synthesized by vapor-phase hydrolysis of titanium tetraisopropoxide, Ti(OPr{sup i}){sub 4}, in a tubular-flow reactor under atmospheric pressure at 443 to 783 K. Particle size increased with increasing inlet Ti(OPr{sup i}){sub 4} concentration and with decreasing inlet H{sub 2}O concentration and temperature. It is suggested that particle formation and growth occurred in a very short residence time in the reactor. Almost all of the Ti(OPr{sup i}){sub 4} could be converted to TiO{sub 2} powder with negligible deposition inside the reactor, indicating the high efficiency of the process.
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四异丙醇钛气相水解连续制备二氧化钛细粉
以四异丙醇钛Ti(OPr{sup i}){sub 4}为原料,在443 ~ 783 K的常压下,在管流式反应器中气相水解制备了亚微米高孔(BET面积<320 m{sup 2}/g) TiO{sub 2}粉体。粒径随进口Ti(OPr{sup i}){sub 4}浓度的升高、进口H{sub 2}O浓度和温度的降低而增大。这表明,颗粒的形成和生长发生在反应器中很短的停留时间内。几乎所有的Ti(OPr{sup i}){sub 4}都可以转化为TiO{sub 2}粉末,反应器内的沉积可以忽略不计,表明该工艺的效率很高。
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Advanced Ceramic Materials
Advanced Ceramic Materials
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