Hot pressing of bimodal alumina powders with magnesium aluminosilicate (MAS) addition

High quality alumina ceramics were fabricated by hot-pressed sintering using bimodal alumina with superfine component as raw material and magnesium aluminosilicate (MAS) glass as sintering aid. Densification behavior, microstructure evolution and mechanical properties of alumina were investigated fr...

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Published inCeramics international Vol. 35; no. 4; pp. 1377 - 1383
Main Authors Li, Jiang, Pan, Yubai, Huang, Liping, Guo, Jingkun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2009
Subjects
Bimodal alumina
Hot pressing
Mechanical properties
Microstructure
Mechanical properties
Hot pressing
Bimodal alumina
Microstructure
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Abstract High quality alumina ceramics were fabricated by hot-pressed sintering using bimodal alumina with superfine component as raw material and magnesium aluminosilicate (MAS) glass as sintering aid. Densification behavior, microstructure evolution and mechanical properties of alumina were investigated from 1300 °C to 1450 °C. The bimodal alumina powders were sintered to 99.8% of the theoretical value at 1400 °C and a comparative dense microstructure with a few plate-like abnormal grains was observed. With increase of sintering temperature up to 1450 °C, many fine matrix grains were consumed and quite a few abnormal grains impinged upon each other. For the alumina ceramics hot-pressed from bimodal alumina with 30 wt.% superfine component, optimal mechanical properties were obtained at 1400 °C. The bending strength and fracture toughness were 522 MPa and 5.0 MPa m 1/2, respectively.
AbstractList High quality alumina ceramics were fabricated by hot-pressed sintering using bimodal alumina with superfine component as raw material and magnesium aluminosilicate (MAS) glass as sintering aid. Densification behavior, microstructure evolution and mechanical properties of alumina were investigated from 1300@uoC to 1450@uoC. The bimodal alumina powders were sintered to 99.8% of the theoretical value at 1400@uoC and a comparative dense microstructure with a few plate-like abnormal grains was observed. With increase of sintering temperature up to 1450@uoC, many fine matrix grains were consumed and quite a few abnormal grains impinged upon each other. For the alumina ceramics hot-pressed from bimodal alumina with 30wt.% superfine component, optimal mechanical properties were obtained at 1400@uoC. The bending strength and fracture toughness were 522MPa and 5.0MPam@u1@u/@u2, respectively.
High quality alumina ceramics were fabricated by hot-pressed sintering using bimodal alumina with superfine component as raw material and magnesium aluminosilicate (MAS) glass as sintering aid. Densification behavior, microstructure evolution and mechanical properties of alumina were investigated from 1300 °C to 1450 °C. The bimodal alumina powders were sintered to 99.8% of the theoretical value at 1400 °C and a comparative dense microstructure with a few plate-like abnormal grains was observed. With increase of sintering temperature up to 1450 °C, many fine matrix grains were consumed and quite a few abnormal grains impinged upon each other. For the alumina ceramics hot-pressed from bimodal alumina with 30 wt.% superfine component, optimal mechanical properties were obtained at 1400 °C. The bending strength and fracture toughness were 522 MPa and 5.0 MPa m 1/2, respectively.
Author Huang, Liping
Pan, Yubai
Guo, Jingkun
Li, Jiang
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Snippet High quality alumina ceramics were fabricated by hot-pressed sintering using bimodal alumina with superfine component as raw material and magnesium...
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SubjectTerms Bimodal alumina
Hot pressing
Mechanical properties
Microstructure
Title Hot pressing of bimodal alumina powders with magnesium aluminosilicate (MAS) addition
URI https://dx.doi.org/10.1016/j.ceramint.2008.07.002
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