Air-plasma spraying colloidal solutions of nanosized ceramic powders

Zun Chen; Rodney W. Trice; M. Besser; Xiaoyun Yang; D. Sordelet

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Air-plasma spraying colloidal solutions of nanosized ceramic powders

机译：空气等离子喷涂纳米陶瓷粉体的胶体溶液

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Coatings prepared from nanosized powders were obtained by spraying ethanol-based colloidal solutions into a plasma plume. The powders investigated included 40 nm γ-Al2O3, 75 nm 8 wt% Y2O3-ZrO2, and 750 nm 25 wt% CeO2-ZrO2. Spray distances from approximately 50 to 63 mm were required to achieve significant coating deposition. As observed in the TEM, the typical lamella morphology of air plasma sprayed oxide coatings was not observed in coatings fabricated from 40 nm γ-Al2O3, which was comprised of spherical powders that had partially sintered. However, lamellae were observed in the coatings prepared with both nanosized zirconia powders. The characteristic size of the lamella and the grains that comprised the zirconia coatings were nominally a few nanometers.

机译：通过将乙醇基胶体溶液喷涂到等离子体羽流中，可以得到由纳米级粉末制备的涂层。研究的粉末包括40 nmγ-Al2 O3 ，75 nm 8 wt％的Y2 O3 -ZrO2 和750 nm 25 wt％的CeO2 -ZrO2 。需要约50至63 mm的喷涂距离才能实现显着的涂层沉积。如在TEM中所观察到的，在由40nm的γ-Al2 O3 制成的涂层中未观察到空气等离子体喷涂氧化物涂层的典型薄片形态，该涂层由部分烧结的球形粉末组成。然而，在用两种纳米尺寸的氧化锆粉末制备的涂层中均观察到薄片。薄片和构成氧化锆涂层的晶粒的特征尺寸名义上为几纳米。

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来源
《Journal of Materials Science 》 |2004年第13期| 4171-4178| 共8页
作者
Zun Chen; Rodney W. Trice; M. Besser; Xiaoyun Yang; D. Sordelet;
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作者单位

School of Materials Engineering Purdue University;

School of Materials Engineering Purdue University;

Metal and Ceramic Sciences Program Ames Laboratory (USDOE) Iowa State University;

Metal and Ceramic Sciences Program Ames Laboratory (USDOE) Iowa State University;

Metal and Ceramic Sciences Program Ames Laboratory (USDOE) Iowa State University;

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1. Air-plasma spraying colloidal solutions of nanosized ceramic powders [J] . Chen Z, Trice RW, Besser M, Journal of Materials Science . 2004 ,第13期

机译：空气等离子喷涂纳米陶瓷粉体的胶体溶液
2. Nanosized LiMn_2O_4 powders prepared by flame spray pyrolysis from aqueous solution [J] . Jang Heui Yi, Jung Hyun Kim, Hye Young Koo, Journal of power sources . 2011 ,第5期

机译：水溶液火焰喷涂热解法制备纳米LiMn_2O_4粉末
3. Nanosized barium ferrite powders prepared by spray pyrolysis from citric acid solution [J] . Min Ha Kim, Dae Soo Jung, Yun Chan Kang CERAMICS INTERNATIONAL . 2009 ,第5期

机译：柠檬酸溶液喷雾热解制备纳米级铁氧体钡粉
4. Colloidal behaviour of nanosized titania powders [C] . S. Fazio, J. Guzman, M. T. Colomer International Conference of the European Ceramic Society . 2008

机译：纳米三氧化钛粉末的胶体行为
5. Low temperature sintering of nanosized ceramic powder: YSZ-bismuth oxide system. [D] . Kim, Hyungchan. 2004

机译：纳米陶瓷粉的低温烧结：YSZ-氧化铋体系。
6. Effect of starting powders on the sintering of nanostructured ZrO2 ceramics by colloidal processing [O] . Gustavo Suárez, Yoshio Sakka, Tohru S Suzuki, 2009

机译：初始粉末对胶态纳米ZrO2纳米陶瓷烧结的影响
7. Air-Plasma Spraying Colloidal Solutions of Nanosized Ceramic Powders [O] . Zun Chen, Rodney W. Trice, M. Besser, 2015

机译：纳米陶瓷粉末的空气等离子喷涂胶体溶液

Air-plasma spraying colloidal solutions of nanosized ceramic powders

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