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Scripta Materialia
The temperature dependence of internal friction, stiffness and strength of Zr-Al(Si)-C ceramics was studied. For glass-free Zr-Al(Si)-C ceramics, the internal friction curve followed an exponential-like background. For liquid-phase-sintered Zr(3)Al(3)C(5), an internal peak present at 1590 K revealed the grain-boundary sliding due to wetting of glass phase at grain boundaries and triple junctions. Zr-Al(Si)-C ceramics exhibited high degrees of stiffness and strength at high temperatures up to 1600 and 1400 degrees C, respectively, which render them good high-temperature structural materials. (c) 2009 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
关键词: Carbide;TEM;Grain boundaries;Elastic behavior;Internal friction;liquid reaction synthesis;si-c ceramics;grain-boundary;polycrystalline ti2alc;elastic properties;oxidation;microstructure;relaxation;viscosity;zr2al3c4