Intensification of Zirconia Ceramics Sintering by Gamma Radiation

 
PIIS086956520002900-3-1
DOI10.31857/S086956520002900-3
Publication type Article
Status Published
Authors
Affiliation:
Baikov Institute of Metallurgy and Materials Science RAS
Blagonravov Institute of Machine Science RAS
Address: Russian Federation, Moscow
Affiliation: Baikov Institute of Metallurgy and Materials Science RAS
Address: Russian Federation, Moscow
Affiliation: Baikov Institute of Metallurgy and Materials Science RAS
Address: Russian Federation, Moscow
Affiliation: Baikov Institute of Metallurgy and Materials Science RAS
Address: Russian Federation, Moscow
Affiliation: Baikov Institute of Metallurgy and Materials Science RAS
Address: Russian Federation, Moscow
Affiliation: Baikov Institute of Metallurgy and Materials Science RAS
Address: Russian Federation, Moscow
Affiliation: Baikov Institute of Metallurgy and Materials Science RAS
Address: Russian Federation, Moscow
Affiliation: D. Mendeleev University of Chemical Technology of Russia
Address: Russian Federation, Moscow
Journal nameDoklady Akademii nauk
EditionVolume 482 Issue 6
Pages671-674
Abstract

  

Keywords
Received06.12.2018
Publication date13.12.2018
Cite   Download pdf To download PDF you should sign in
Размещенный ниже текст является ознакомительной версией и может не соответствовать печатной

views: 1258

Readers community rating: votes 0

1. Manicone, P.F., Iommetti, P.R., Raffaelli, L. An overview of zirconia ceramics: basic properties and clinical applications. Journal of dentistry, 2007, V. 35(11), P. 819—826.

2. Yasuda, K., Arai, S., Itoh, M., & Wada, K. Influence of Y2O3 distribution on the rate of tetragonal to monoclinic phase transformation of yttria-stabilized zirconia during hydrothermal aging. Journal of materials science, 1999, V. 34(15), P. 3597—3604.

3. Mondal, P., Klein, A., Jaegermann, W., Hahn, H. Enhanced specific grain boundary conductivity in nanocrystalline Y2O3-stabilized zirconia. Solid State Ionics, 1999, V. 118(3—4), P. 331—339.

4. Shevchenko V. Ya., Barinov S. M. Tekhnologicheskaya keramika. M.: Nauka, 1993, 205 s.

5. Hemeda O. M., El-Saadawy M. Effect of Gamma Irradiation on the Structural Properties and Diffusion Coefficient in Co–Zn Ferrite // J. Magn. Magn. Mater. 2003. V. 256. P. 63—68. 5.

6. Smirnov V. V., Kochanov G. P., Antonova O. S., Shvorne- va L.I., Barinov S. M. Vliyanie γ-oblucheniya na spekanie ftorgidroksiapatovoj keramiki // DAN. 2012. T. 446. № 1. S. 55—57.

7. Smirnov, V. V., Antonova, O. S., Kochanov, G. P., Smetannikov, Yu. V., Khajrutdinova, D. R., Shvorneva, L.I., Barinov, S .M. Vliyanie gamma-oblucheniya na fazovyj sostav keramicheskikh materialov na osnove ZrO2 //Neorganicheskie materialy. 2016. T. 52. №. 12. S. 1375—1378.

8. GOST 5402-81 Izdeliya ogneupornye. Metody opredeleniya dopolnitel'noj linejnoj usadki ili rosta

Система Orphus

Loading...
Up