Abstract
Metal- and ceramic-based composites reinforced with single crystalline oxide fibres promise an essential advance in developing heat-resistant composites. However, to reach a goal of making composites, which would be high creep resistant at very high temperatures and sufficiently damage tolerant at room temperature, a number of scientific and technological problems must be solved. The paper focuses on a particular feature of metal- and oxide-matrix composites, which is an interaction between fibre and matrix yielding considerable changes in microstructure and effective properties of both constituents. A special attention is drawn to a possibility to organize a synergetic fibre/matrix interaction to obtain composites with really new properties.
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Acknowledgements
The work was partly supported by International Science and Technology Centre, Project #2456, and Russian Foundation for Basic Research, Projects 04-03-81030-b̄eл2004 and 05-08-50101. Former and present staff of Laboratory of Reinforced Systems of Solid State Physics Institute participated in the experimental work. Special thanks to A. Serebryakov, V. Kiiko, A. Kolchin, L. Kozhevnikov, V. Korzhov, V. Kurlov, I. Maleev, A. Mizkevich, N. Prokopenko, N. Sarkissyan.
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Mileiko, S.T. Composites reinforced with single crystalline oxide fibres: experiments and modelling. J Mater Sci 41, 6708–6717 (2006). https://doi.org/10.1007/s10853-006-0184-7
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DOI: https://doi.org/10.1007/s10853-006-0184-7