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Glass and Ceramics

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09-11-2018

Research on the Development of High-Quality Aluminum Oxide Ceramic (Review). Part 1. Sintering with Additives, Reactive Sintering, Production of Reinforced Composites

Author: A. M. Abyzov

Published in: Glass and Ceramics | Issue 7-8/2018

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Abstract

Home-grown dissertations on ceramics obtained from aluminum oxide and methods for obtaining them in the period from 2000 are reviewed. Fine construction-grade ceramic is predominantly studied. The emphasis is on technological aspects. The first part of the review includes the sintering of Al₂O₃ with the addition of heteroelement oxides, reactive sintering with the addition of aluminum, the production of cermets of the type Al₂O₃, and the production of reinforced composites with an aluminum oxide matrix.

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The authors’ abstracts of dissertations (except for bibliographic data from the catalog) are accessible in electronic form on site at the Russian National Library (the selections for 2000 – 2012 are quite complete), the Russian Government Library (authors abstracts mainly for the last 10 years are open for examination). The authors abstracts and the dissertations themselves, completed recently, are often accessible on the sites of organizations where the work was performed as well as in an open database such as Docplayer. Runet also contains a series of databases (Tekhnosfera, disserCat, DsLib.net, and so on), offering after familiarization with the abstract (in a truncated volume and incomplete format — with distorted symbols and tables, without figures) complete texts of the primary sources for a fee.

V. Ya. Shevchenko and S. M. Barinov, Technical ceramics [in Russian], Nauka, Moscow (1993).

N. M. Pavlushkin, Sintered Corundum [in Russian], Gosstroiizdat, Moscow (1961).

V. L. Balkevich, P. P. Budnikov, I. A. Bulavin, et al., Chemical Technology of Ceramics and Refractories [in Russian], Stroiizdat, Moscow (1972).

V. N. Batygin, A. M. Reshetnikov, I. I. Metelkin, Vacuum-Tight Ceramic and Its Junctions with Metals [in Russian], Énergiya, Moscow (1973).

V. S. Bakunov, V. L. Balkevich, A. S. Vlasov, et al., Ceramics from High-Refractory Oxides [in Russian], Metallurgy, Moscow (1977).

I. S. Kainarskii, E. V. Degtyareva, and I. G. Orlova, Corundum Refractories and Ceramics: Scientific Basis, Technology and Properties [in Russian], Metallurgy, Moscow (1981).

V. L. Balkevich, Technical Ceramics [in Russian], Stroiizdat, Moscow (1984).

E. S. Lukin, N. A. Makarov, A. I. Kozlov, et al., “Modern oxide ceramic and its applications,” Konstr. Kompozit. Mater., No. 1, 3 – 13 (2007); URL: https://elibrary.ru/item.asp?id=11909922.

N. A. Makarov, Low-Sintering High-Strength Ceramics Based on Aluminum Oxide, Author’s Abstract of Candidate’s Thesis [in Russian], D. I. Mendeleev Russian Chemical and Technological University, Moscow (2000).

10.

V. V. Smirnov, Corundum Ceramic with Additives Containing Components with Low Surface Tension, Author’s Abstract of Candidate’s Thesis [in Russian], D. I. Mendeleev Russian Chemical and Technological University, Moscow (2002).

11.

S. V. Tarasova, Corundum Ceramic for the Heads of Hip Joint Endoprosthesis, Author’s Abstract of Candidate’s Thesis [in Russian], D. I. Mendeleev Russian Chemical and Technological University, Moscow (2003).

12.

S. A. Pershikov, Three-Dimensional Sintering Model Based Development of Firing Regimes for Dense Oxide Ceramics, Author’s Abstract of Candidate’s Thesis [in Russian], D. I. Mendeleev Russian Chemical and Technological University, Moscow (2003).

13.

M. S. Voznaya, Vacuum-Tight Alumina Ceramics with Enhanced Dielectric Properties, Author’s Abstract of Candidate’s Thesis [in Russian], Tomsk Polytechnic University, Tomsk (2003).

14.

S. I. Gershkovich, Production and Properties of Materials Based on the Phases of the System ZrO ₂ –Al ₂ O ₃, Author’s Abstract of Candidate’s Thesis [in Russian], St. Petersburg State Institute of Technology, St. Petersburg (1996)

15.

M. A. Dedovets, Corundum Materials Modified By Radio-Absorbing Substances, Author’s Abstract of Candidate’s Thesis [in Russian], St. Petersburg State Technological Institute, St. Petersburg (2004).

16.

K. A. Speranskaya, Composite Nanofragmented Materials of Microwave Synthesis, Author’s Abstract of Candidate’s Thesis [in Russian], St. Petersburg State Technological Institute, St. Petersburg (2010).

17.

R. V. Zubashchenko, Corundum Composite Materials Modified by a Eutectoid Phase: Author’s Abstract of Candidate’s Thesis [in Russian], V. G. Shukhov Belgorod State Technological University, Belgorod (2004).

18.

M. A. Smirnova, Physicochemistry of the Activation of Alumina, Author’s Abstract of Candidate’s Thesis [in Russian], N. É. Bauman Moscow State Technical University, Moscow (2016).

19.

O. D. Amelina, Development of the Non-Sintering Technology of Vacuum-Tight Corundum Ceramics of the BK100 Group for Electronic Equipment, Author’s Abstract of Candidate’s Thesis [in Russian], N. É. Bauman Moscow State Technical University, Moscow (2016).

20.

E. A. Lymar, Composite Materials Based on Ceramo-Aluminium Matrices, Author’s Abstract of Candidate’s Thesis [in Russian], V. G. Shukhov Belgorod State Technological University, Belgorod (2007).

21.

O. V. Nevvonen, Activated Synthesis and Sintering of Ceramic Materials of the Systems MgO–Al ₂ O ₃ –SiO ₂ and Al ₂ O ₃ –ZrO ₂ with the Addition of Aluminum Nanopowder, Author’s Abstract of Candidate’s Thesis [in Russian], Tomsk Polytechnic University, Tomsk, Tomsk (2006).

22.

A. I. Sitnikov, Production Of Heat-Resistant Cermet Al ₂ O ₃ –Al By Reactive Sintering, Author’s Abstract of Candidate’s Thesis [in Russian], K. É. Tsiolkovskii Russian State Technological University, Moscow (2005).

23.

E. V. Malikova, Production of Ceramic Materials By the SHS Method in the Al–O–N, Ti–O–N, Zr–O–N Systems, Author’s Abstract of Candidate’s Thesis [in Russian], Tomsk Polytechnic University, Tomsk (2012).

24.

A. N. Tolstun, High-Temperature Oxide-Oxide Composites, Author’s Abstract of Candidate’s Thesis [in Russian], A. A. Baikov Institute of Metallurgy and Materials Science, Russian Academy of Sciences, Chernogolovka (2009).

25.

Ch. T. T. Duong, Production of Aluminum Oxide Based Ceramic Composites Hardened by Multi-Layered Carbon Nanotubes, Author’s Abstract of Candidate’s Thesis [in Russian], D. I. Mendeleev Russian Chemical and Technological University, Moscow (2016).

26.

N. A. Fedosova, Development and Mathematical Modeling of the Process of Obtaining a Ceramic-Matrix Composite Reinforced with Carbon Nanotubes, Author’s Abstract of Candidate’s Thesis [in Russian], D. I. Mendeleev Russian Chemical and Technological University, Moscow (2016).

Title: Research on the Development of High-Quality Aluminum Oxide Ceramic (Review). Part 1. Sintering with Additives, Reactive Sintering, Production of Reinforced Composites
Author: A. M. Abyzov
Publication date: 09-11-2018
Publisher: Springer US
Published in: Glass and Ceramics / Issue 7-8/2018
Print ISSN: 0361-7610
Electronic ISSN: 1573-8515
DOI: https://doi.org/10.1007/s10717-018-0074-x

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