期刊
CERAMICS INTERNATIONAL
卷 47, 期 12, 页码 16632-16640出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2021.02.234
关键词
Spray drying; Agglomerated powder; Calcination; 8YSZ; PS-PVD
资金
- Guangdong Department of Science and Technology [2019B010936001, 2019BT02C629]
- Guangzhou Municipal Science and Technology Project [202007020008]
- Project of Guangdong Academy of Sciences [2020GDASYL20200402005, 2020GDASYL20200104028]
Higher calcination temperatures result in smaller powder sizes and increased binding force between primary particles, leading to the formation of a three-layer composite coating with excellent adhesion and thermal shock resistance.
Homemade nano-agglomerated powders 8YSZ powders for PS-PVD were prepared by the spray drying, then calcination processes at four different temperatures (500 degrees C, 700 degrees C, 900 degrees C and 1100 degrees C) were carried out on the spray-dried powders. Checked by laser particle sizer, scanning electron microscope (SEM) and X-ray diffraction (XRD), the physical properties, microstructure and phase constitutions of the calcined powders were investigated. The results show that the size of powders calcined at 500 degrees C is increased relative to the spray-dried powder, whereas the powders calcined at 700 degrees C, 900 degrees C and 1100 degrees C possess smaller size. The binding force of the primary particles tend to rise with the increase of calcination temperature. When the temperature was up to 900 degrees C and above, it was found that the sintering neck indicating with strong binding was formed between the primary particles. In parallel, the powders underwent an m-ZrO2 to t-ZrO2 transition as the calcination temperature rose. It is also found that the PS-PVD prepared coatings which were obtained by using the above powders undergo a transformation from a feather-like to a dense laminate structure as the calcination temperature rises. It is noteworthy that the coating obtained by the powders calcined at 700 degrees C have a special threelayer composite structure of near dense surface layer, columnar intermediate layer and dense sub-layer. The composite structural coating has excellent adhesion and thermal shock resistance, with a bonding strength of 81MPa and no major spalling when water quenched 100 cycles at 1100 degrees C.
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