Influence of nano ?-Al2O3 as sintering aid on the microstructure of spray dried and sintered ?-Al2O3 ceramics
- Title
- Influence of nano ?-Al2O3 as sintering aid on the microstructure of spray dried and sintered ?-Al2O3 ceramics
- Creator
- Ramaswamy P.; Gowtham Sanjai S.; Ramawarrier R.
- Description
- Alpha Alumina (?-Al2O3) has traditionally been sintered to near theoretical density by employing variations in raw material properties, particle sizes, grinding methods, compaction pressures, sintering aids or minor quantities of additives and sintering temperatures. All these parameters directly influence the grain growth morphology and microstructure of the sintered alumina ceramic characteristics. Growth of large grained microstructure facilitated by fine grinding of raw material and coalescence of the grains enhanced by dopant additions are well researched. The maximum sintered density and strength of the fired body could be attained through large grained microstructure which include near spheroidal grains. Most of the final sintering is accomplished via additions of suitable aids which also may be promoted by liquid-phase sintering which is considered highly advantageous compared to solid-state sintering for products in many defense applications. In this paper the influence of nano ?-Al2O3 (<100 nm particle size) as sintering aid to obtain the desired microstructure in sintered micron sized (1 to 5 m) ?-Al2O3 is being reported. 1.0 and 1.5 wt% nano ?- Al2O3 powder were spray dried with 99.0 and 98.5% ?-Al2O3 powder respectively, with polyvinyl alcohol binder, compacted into 10 mm dia and 5 mm thick pellets and sintered at 1450 C with 3 h soak time. In addition to the two different sintering aid additive percentages, other variables included are spray dried powders removed from (i) chamber and (ii) cyclone. The sintered ceramics were characterized for bulk density and fracture surface microstructure via SEM analysis. Nano alumina as sintering aid exhibited significant influence that included generation of microstructure with porosity, precipitation or liquid phase sintering. The study was limited to establishing the definitive role played by nano alumina to influence the sintering of micron alumina. 2022
- Source
- Materials Today: Proceedings, Vol-62, pp. 902-907.
- Date
- 2022-01-01
- Publisher
- Elsevier Ltd
- Subject
- Liquid phase sintering; Micron alumina; Microstructure; Nano alumina; Sintering aid
- Coverage
- Ramaswamy P., Department of Mechanical and Automobile Engineering, School of Engineering and Technology, Kengeri Campus, Christ University, Kanminike, Bangalore, India; Gowtham Sanjai S., Department of Mechanical and Automobile Engineering, School of Engineering and Technology, Kengeri Campus, Christ University, Kanminike, Bangalore, India; Ramawarrier R., Department of Mechanical and Automobile Engineering, School of Engineering and Technology, Kengeri Campus, Christ University, Kanminike, Bangalore, India
- Rights
- Restricted Access
- Relation
- ISSN: 22147853
- Format
- Online
- Language
- English
- Type
- Conference paper
Collection
Citation
Ramaswamy P.; Gowtham Sanjai S.; Ramawarrier R., “Influence of nano ?-Al2O3 as sintering aid on the microstructure of spray dried and sintered ?-Al2O3 ceramics,” CHRIST (Deemed To Be University) Institutional Repository, accessed February 25, 2025, https://archives.christuniversity.in/items/show/20428.