Effect of the Zirconia Particle Size on the Compressive Strength of Reticulated Porous Zirconia-Toughened Alumina

Reticulated porous ceramics have attracted researchers owing to the separation and collection properties of porous materials and the combined high thermal resistance and chemical stability of ceramics. Among various kinds of reticulated porous ceramics, we investigated the feasibility of using retic...

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Bibliographic Details
Published inApplied sciences Vol. 12; no. 5; p. 2316
Main Authors Lee, Chae-Young, Lee, Sujin, Ha, Jang-Hoon, Lee, Jongman, Song, In-Hyuck, Moon, Kyoung-Seok
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.03.2022
Subjects
Alumina
Aluminum oxide
Cellulose
Ceramics
Compressive strength
Experiments
Insulators
Methods
optimized viscosity
Particle size
Polymers
Polyvinyl alcohol
Porous materials
Raw materials
reticulated porous ZTA
rheological control
Rheological properties
Scanning electron microscopy
Sintering (powder metallurgy)
Slurries
Thermal resistance
Viscosity
Zirconia
Zirconia toughened alumina
Zirconium dioxide
United States > US
Japan
Germany
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Summary:Reticulated porous ceramics have attracted researchers owing to the separation and collection properties of porous materials and the combined high thermal resistance and chemical stability of ceramics. Among various kinds of reticulated porous ceramics, we investigated the feasibility of using reticulated porous Zirconia-toughened Alumina as applications such as dielectric barriers, insulators, and filters with acceptable properties. An acceptable range of the compressive strength for reticulated porous ZTA applications is approximately 1 MPa. However, when the pore density of the reticulated porous ZTA specimen prepared using coarse zirconia was 60, maximum compressive strength of 1.63 MPa was obtained. To enhance the compressive strength of reticulated porous ZTA specimens, rheological control of the ZTA slurry is most important by optimizing the viscosity of the ZTA slurry, and the composition (average particle size, solid loading, organic binder, and thickener) of the ZTA slurry was controlled. The optimized processing conditions to enhance the compressive strength of reticulated porous ZTA specimens were determined. Consequently, we enhanced the compressive strength of the reticulated porous ZTA specimens from 0.37 MPa to 3.11 MPa by optimizing the ZTA slurry when the solid loading content, the pore density, the sintering temperature, the amount of PVA, and the amount of thickener were 66 wt.%, 60 PPI, 1600 °C, 2 wt.%, and 0.15 wt.%, respectively.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12052316