Your search keyword '"Lee, Chae Young"' showing total 7 results

1. Effect of the processing conditions of reticulated porous alumina on the compressive strength

Author

Lee, Chae-Young, Lee, Sujin, Ha, Jang-Hoon, Lee, Jongman, Song, In-Hyuck, and Moon, Kyoung-Seok

Published

2021

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

Author

Lee, Chae-Young, Lee, Sujin, Ha, Jang-Hoon, Lee, Jongman, Song, In-Hyuck, and Moon, Kyoung-Seok

Subjects

COMPRESSIVE strength, ALUMINUM oxide, POROUS materials, ZIRCONIUM oxide, CHEMICAL resistance, THERMAL resistance

Abstract

Featured Application: Ceramic Membranes. 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. [ABSTRACT FROM AUTHOR]

Published

2022

3. The Effects of Process Conditions on Improvement of the Compressive Strengths of Reticulated Porous Zirconia.

Author

Lee, Sujin, Lee, Chae-Young, Ha, Jang-Hoon, Lee, Jongman, Song, In-Hyuck, and Kwon, Se-Hun

Subjects

COMPRESSIVE strength, SLURRY, POROSITY, POROUS metals, DIELECTRIC breakdown, POROUS polymers, ZIRCONIUM oxide

Abstract

Featured Application: Molten metal filter and ceramic membrane. In recent years, there has been growing interest in porous ceramics in many research areas given their superior thermal and chemical resistance capabilities, unlike porous metals and porous polymers. Among the various types of porous ceramics, reticulated porous ceramics can offer significant industrial potential due to the low density and high permeability of these materials. However, industrial applications are somewhat rare owing to the rather low compressive strength of reticulated porous ceramics compared to other types of porous ceramics. Although there have been many studies related to reticulated porous ceramics, few have focused on reticulated porous zirconia. Therefore, the aim of this study is to determine how to obtain a high compressive strength in reticulated porous zirconia by optimizing the process conditions of the solid loading level and the particle size and by using additives in a zirconia slurry sample. Furthermore, the authors assess the effects on the microstructure and compressive strength of multiple slurry coating, specifically from one to three. In conclusion, the effect of varying these various process conditions on the resulting improvement in compression strength was investigated, and the compression strength of reticulated porous zirconia was significantly increased from 0.14 to 9.43 MPa. The characteristics investigated include the pore characteristics (pore density, pore size and pore structure), the sintering behavior (linear shrinkage), the mechanical properties (compressive strength), and the dielectric properties (dielectric breakdown strength). [ABSTRACT FROM AUTHOR]

Published

2022

4. The Effects of a Zirconia Addition on the Compressive Strength of Reticulated Porous Zirconia-Toughened Alumina.

Author

Lee, Chae-Young, Lee, Sujin, Ha, Jang-Hoon, Lee, Jongman, Song, In-Hyuck, and Moon, Kyoung-Seok

Subjects

COMPRESSIVE strength, ALUMINUM oxide, POROUS metals, ORGANIC conductors, CHEMICAL stability, ZIRCONIUM oxide, POROUS polymers

Abstract

Featured Application: Ceramic Membranes. Porous ceramics have attracted researchers due to their high chemical and thermal stability. Among various types of porous ceramics, reticulated porous ceramics have both high porosity and good permeability. These properties of porous ceramics are difficult to replace with porous metals and polymers. ZTA is used in a variety of applications, and a wealth of experimental data has already been collected. However, research reports on reticulated porous zirconia-toughened alumina (ZTA) are insufficient. Therefore, we prepared reticulated porous ZTA via the replica template method. In this study, various processing conditions (average particle size, zirconia content, solid loading, dispersant, and thickener) were adjusted to improve the compressive strength of the reticulated porous ZTA. As a result, the optimized processing conditions for improving the compressive strength of reticulated porous ZTA could be determined. [ABSTRACT FROM AUTHOR]

Published

2021

5. Effect of the Sintering Temperature on the Compressive Strengths of Reticulated Porous Zirconia.

Author

Lee, Chae-Young, Lee, Sujin, Ha, Jang-Hoon, Lee, Jongman, Song, In-Hyuck, and Moon, Kyoung-Seok

Subjects

COMPRESSIVE strength, TEMPERATURE effect, POROUS materials, TEMPERATURE control, ZIRCONIUM oxide, CERAMICS, CERAMIC materials, POROSITY

Abstract

Featured Application: Ceramic Membranes. Porous ceramics have separation/collection (open pore) and heat-shielding/sound-absorbing (closed pore) characteristics not found in conventional dense ceramics, increasing their industrial importance along with dense ceramics. Reticulated porous ceramics, a type of porous ceramic material, are characterized by a three-dimensional network structure having high porosity and permeability. Although there have been numerous studies of porous zirconia, which is already widely used, there are insufficient reports on reticulated porous zirconia, and it is still challenging to improve the compressive strength of reticulated porous ceramics thus far, especially considering that too few studies have been published on this topic. Therefore, we prepared reticulated porous zirconia specimens using the replica template method. In this study, the compressive strength outcomes of reticulated porous zirconia were analyzed by controlling the PPI value (25, 45, 60, and 80 PPI) of the sacrificial polymer template, the average zirconia particle size (as-received, coarse, intermediate, and fine), and the sintering temperature (1400, 1500, and 1600 °C). Consequently, we confirm that it is possible to prepare reticulated porous zirconia with a wide range of strengths (0.16~1.26 MPa) as needed with an average particle size and while properly controlling the sintering temperature. [ABSTRACT FROM AUTHOR]

Published

2021

6. Enhancing Compressive Strength of Reticulated Porous Alumina by Optimizing Processing Conditions.

Author

Lee, Sujin, Lee, Chae Young, Ha, Jang-Hoon, Lee, Jongman, Song, In-Hyuck, Kwon, Se-Hun, and Nakamura, Yuzo

Subjects

COMPRESSIVE strength, ALUMINUM oxide, POROUS polymers, ORGANIC conductors, INDUSTRIAL capacity, CHEMICAL stability, ALUMINA composites

Abstract

Featured Application: Ceramic Membranes. Recently, porous ceramics have received much attention from researchers because of their excellent thermal and chemical stabilities compared to their counterparts (such as porous polymers and metals), despite their inferior mechanical instability. Among the various types of porous ceramics, reticulated porous ceramics have significant industrial potential because of their synergistic high porosity and permeability. However, to the best of our knowledge, there is insufficient data on the processing conditions or preparing optimal reticulated porous alumina. Therefore, we prepared and characterized reticulated porous alumina specimens by controlling various processing conditions, namely average particle size, solid loading, binder, and dispersant. The data obtained were used to assess whether the compressive strength of the reticulated porous alumina could be enhanced and to discuss the potential of these materials for various applications. [ABSTRACT FROM AUTHOR]

Published

2021

7. Effect of Processing Conditions on the Properties of Reticulated Porous Diatomite–Kaolin Composites.

Author

Lee, Sujin, Lee, Chae Young, Ha, Jang-Hoon, Lee, Jongman, Song, In-Hyuck, and Kwon, Se-Hun

Subjects

KAOLIN, POROUS polymers, POROUS metals, ORGANIC conductors, CHEMICAL stability, COMPRESSIVE strength

Abstract

Porous ceramics have been extensively investigated because of their high-temperature and chemical stabilities, which are far superior to those of porous polymers and porous metals, despite their mechanical instability. Among various kinds of porous ceramic, reticulated porous ceramics have attracted considerable attention because of their extremely high porosity, which is generally higher than 90% and can maximize the advantages of this class of materials. However, to the best of our knowledge, sufficient data are not available on the preparation of low-cost, abundant, and natural material-based reticulated porous ceramics. Therefore, we obtained and characterized reticulated porous diatomite–kaolin composites prepared under various processing conditions, such as solid loading, average particle size, and pore density. The experimental data were used to investigate whether the densities and compressive strengths of the reticulated porous diatomite–kaolin composite can be tailored, and to assess the potential of these materials in different application fields. [ABSTRACT FROM AUTHOR]

Published

2020