Self-propagating high-temperature synthesis of promising ceramic materials for deposition technologies of functional nanostructured coatings |
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| Authors: | E. A. Levashov V. V. Kurbatkina E. I. Patsera Yu. S. Pogozhev S. I. Rupasov A. S. Rogachev |
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| Affiliation: | 1.National Research Technological University,Moscow State Institute of Steel and Alloys,Moscow,Russia;2.Scientific and Educational Center of Self-Propagating High Temperature Synthesis,Moscow State Institute of Steel and Alloys (State Technological University) and the Institute of Structural Macrokinetics and Material Sciences, Russian Academy of Sciences,Moscow,Russia |
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| Abstract: | Taking into account the demand for composite targets or precursors for ion-plasma technologies for the deposition of functional nanostructured coatings, this work is a review of recently obtained and previously unpublished results of synthesis in the combustion mode of a series of chemical classes of systems differing in regards to the mechanisms of combustion and structure formation. The experimental results for self-propagating high-temperature synthesis are presented for the following systems: Ti-Al-C, Cr-Al-C, Ti-Cr-Al-C, Cr-B, Ti-Cr-B, Ti-Ta-C, and Ti-Si3N4-Al-C. The compositions of reaction mixtures and conditions of obtaining the most interesting and needed materials with high mechanical properties and resistance to high-temperature oxidation are found. |
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