High-Temperature Firing of Composite Based on the Max-Phase of the Ti–Al

High-Temperature Firing of Composite Based on the Max-Phase of the Ti–Al–C System

Published:2018-01 Issue:5 Volume:58 Page:557-561
ISSN:1083-4877
Container-title:Refractories and Industrial Ceramics
language:en
Short-container-title:Refract Ind Ceram

Author:

Galyshev S. N.,Bazhin P. M.,Stolin A. M.,Musin F. F.,Solov’ev P. V.,Astanin V. V.

Publisher

Springer Science and Business Media LLC

Subject

Materials Chemistry,Ceramics and Composites

Link

http://link.springer.com/article/10.1007/s11148-018-0144-1/fulltext.html

Reference11 articles.

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2. T. A. Prikhna, S. N. Dub, A. V. Starostina, et al., “Mechanical properties of materials based on MAX phases of the Ti–Al–C system,” J. Superhard Materials, 34(2), 102 – 109 (2012).

3. A. V. Starostina, T. A. Prikhna, M. V. Karpets, et al., “Synthesis of ternary compounds of the Ti–Al–C system at high pressures and temperatures,” J. Superhard Materials, 33(5), 307 – 314 (2011).

4. A. S. Novikov, A. G. Paikin, and V. A. Shulov, “Poluchenie, svoistva i perspective pimenenia MAX-materialov na osnove titana [Preparation, properties and application MAX-titanium-based materials] / Uprochnyaushie tehnologii i pokritia,” Hardening and Coating Technology (in Rus.), No. 11, 24 – 34 (2006)

5. M. W. Barsoum and T. El-Raghy, “The MAX phases: unique new carbide and nitride materials,” The Scientific Research Soc. American Scientist, 89, 334 – 343 (2001).

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