Highly-Workable Alumina-Base Ceramics

Highly-Workable Alumina-Base Ceramics Refractories and Industrial Ceramics Vol. 41, Nos. 9 – 10, 2000 UDC 666. 762.5 1 1 1 A. V. Shevchenko, A. K. Ruban, and E. V. Dudnik Translated from Ogneupory i Tekhnicheskaya Keramika, No. 9, pp.2–8, September, 2000. High-workable oxide ceramic materials based on ZrO properties of such transformation-toughened materials are are characterized by a unique combination of high strength, improved due to the martensitic transformation of the grains fracture toughness, resistance to the effect of aggressive che - of metastable T-ZrO into M-ZrO at the tip of the propagat- 2 2 mical media, low thermal conductivity, and special electro - ing crack, which is accompanied by volume expansion and physical properties. These materials possess substantially en the development of shear strain; the latter increase the vol- hanced fracture toughness, strength, and resistance to ther ume of the process zone (i.e., the zone of occurrence of the mal shocks due to the realization of a martensitic phase T-ZrO  M-ZrO phase transformation). Therefore, the ca- 2 2 transformation of tetragonal zirconia (T-ZrO ) into its mono 2 pacity of metastable grains of T-ZrO for metastable trans- clinic modification (M-ZrO ). The effect of the transforma 2 formation in the http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Refractories and Industrial Ceramics Springer Journals

Highly-Workable Alumina-Base Ceramics

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Publisher
Kluwer Academic Publishers-Plenum Publishers
Copyright
Copyright © 2000 by Plenum Publishing Corporation
Subject
Materials Science; Characterization and Evaluation of Materials; Materials Science, general; Ceramics, Glass, Composites, Natural Materials
ISSN
1083-4877
eISSN
1573-9139
D.O.I.
10.1023/A:1011333732325
Publisher site
See Article on Publisher Site

Abstract

Refractories and Industrial Ceramics Vol. 41, Nos. 9 – 10, 2000 UDC 666. 762.5 1 1 1 A. V. Shevchenko, A. K. Ruban, and E. V. Dudnik Translated from Ogneupory i Tekhnicheskaya Keramika, No. 9, pp.2–8, September, 2000. High-workable oxide ceramic materials based on ZrO properties of such transformation-toughened materials are are characterized by a unique combination of high strength, improved due to the martensitic transformation of the grains fracture toughness, resistance to the effect of aggressive che - of metastable T-ZrO into M-ZrO at the tip of the propagat- 2 2 mical media, low thermal conductivity, and special electro - ing crack, which is accompanied by volume expansion and physical properties. These materials possess substantially en the development of shear strain; the latter increase the vol- hanced fracture toughness, strength, and resistance to ther ume of the process zone (i.e., the zone of occurrence of the mal shocks due to the realization of a martensitic phase T-ZrO  M-ZrO phase transformation). Therefore, the ca- 2 2 transformation of tetragonal zirconia (T-ZrO ) into its mono 2 pacity of metastable grains of T-ZrO for metastable trans- clinic modification (M-ZrO ). The effect of the transforma 2 formation in the

Journal

Refractories and Industrial CeramicsSpringer Journals

Published: Oct 7, 2004

References

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