Investigations on colloidal and dry formed alumina parts under pressure and pressure-less conditions

IF 0.9 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS
P. Raju, P. Biswas, A. Khanra, Y. Rao, Roy Johnson
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引用次数: 0

Abstract

Pressure assisted casting of advanced ceramics is an emerging preparation technique as it permits using a colloidal slips in shaping under pressure. Application of pressure provides flexibility in forming of complex shapes in combination with high homogeneity, superior green density, strength and high productivity. Current study compares conventional slip casting (CSC), pressure slip casting (PSC) and cold isostatic pressing (CIP) used for preparation of alumina green bodies. Since particle size is a limitation in PSC process due to the defined pore size of the mould, the same starting alumina powder obtained by mixing of powders with two different average particle size (7 ?m and 1.43 ?m) in the proportion of 65:35 was employed in all three processes. Green densities of 65%TD at 35 bar in case of PSC and 66%TD at 1200 bar after CIP were obtained; however, density of the CSC samples was only 50%TD. Flexural strength and fractographic studies were carried out and correlated with the respective processes. The samples were also sintered at 1600 ?C to evaluate their sinterability.
在压力和无压力条件下对胶体和干燥成型氧化铝零件的研究
高级陶瓷的压力辅助铸造是一种新兴的制备技术,因为它允许在压力下使用胶体滑移成形。压力的应用为复杂形状的成型提供了灵活性,同时具有高均匀性、优越的生坯密度、强度和高生产率。目前研究比较了常规滑移铸造(CSC)、压力滑移铸造(PSC)和冷等静压铸造(CIP)制备氧化铝坯体的方法。由于模具孔径的限制,在PSC工艺中粒度是一个限制,因此在所有三个工艺中都采用相同的起始氧化铝粉,通过将两种不同平均粒度的粉末(7 μ m和1.43 μ m)以65:35的比例混合而得到。在PSC条件下,35 bar的绿密度为65%TD,在CIP条件下,1200 bar的绿密度为66%TD;而CSC样品的密度仅为50%TD。进行了弯曲强度和断口学研究,并将其与各自的工艺相关联。样品还在1600℃下进行了烧结,以评估其烧结性能。
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来源期刊
Processing and Application of Ceramics
Processing and Application of Ceramics MATERIALS SCIENCE, CERAMICS-
CiteScore
1.90
自引率
9.10%
发文量
14
审稿时长
10 weeks
期刊介绍: Information not localized
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