Tool ceramics based on Al^sub 2^O3-ZrO2-TiCN composite

Oxide composite Al^sub 2^O3-ZrO2(Y^sub 2^O3) powders containing 50 and 70 vol.% Al^sub 2^O3, are deposited from salt solutions. The surface area of the deposited powders exceeds 75 m^sup 2^/g. It is established that the α-Al^sub 2^O3 and t-ZrO2(Y^sub 2^O3) matrix has an effect on stepwise crystalliz...

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Veröffentlicht in:	Powder metallurgy and metal ceramics 2011-03, Vol.49 (11-12), p.675
Hauptverfasser:	Dyatlova, Ya G, Agafonov, S V, Boikov, S Yu, Ordanyan, S S, Rumyantsev, V I
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creator	Dyatlova, Ya G Agafonov, S V Boikov, S Yu Ordanyan, S S Rumyantsev, V I
description	Oxide composite Al^sub 2^O3-ZrO2(Y^sub 2^O3) powders containing 50 and 70 vol.% Al^sub 2^O3, are deposited from salt solutions. The surface area of the deposited powders exceeds 75 m^sup 2^/g. It is established that the α-Al^sub 2^O3 and t-ZrO2(Y^sub 2^O3) matrix has an effect on stepwise crystallization of α-Al^sub 2^O3 and the powder production history on the sinterability of oxide composites. Ceramics based on Al^sub 2^O3-ZrO2(Y^sub 2^O3) composite powder containing 20 vol.% titanium carbonitride are hot pressed to be used as a cutting tool. The microstructure and mechanical properties of the ceramics are analyzed. The best mechanical properties are shown by ceramic samples sintered at 1550°C at 35 MPa: bending strength 950 MPa, fracture toughness 10.1 MPa m^sup 1/2^, and hardness 18.0 GPa. The performance and lifetime of cutting tools based on these ceramics are tested according to GOST 26613-85.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s11106-011-9287-z
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title	Tool ceramics based on Al^sub 2^O3-ZrO2-TiCN composite
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