Fracture and mechanical properties of MoSi2 and MoSi2+SiC DUSZA, J., HVIZDOS, P. vol. 44 (2006), no. 5, pp. 251 - 258
Abstract The mechanical properties as hardness, bending strength, fracture toughness, and creep of a monolithic molybdenium disilicide and a MoSi2+SiC composite have been investigated. The bending strength was measured in four-point bending, the fracture toughness using single edge V-notched specimens at room temperature. The creep experiment was carried out in fourpoint bending mode in the temperature range from 1100°C to 1200°C in air. The influence of high-temperature heat treatments in air at 1400°C and 1550°C for 100 h on the bending strength of MoSi2 at room temperature has been investigated, too. The hardness and fracture toughness of MoSi2+SiC composites were slightly improved by the incorporated SiC particles into the MoSi2 matrix. The strength values of composites were relatively low because of the presence of defects in their microstructure. The creep resistance of MoSi2+20vol.%SiC composite was significantly improved in comparison with the monolithic MoSi2. Heat treatment at 1400°C had no influence on the strength but a heat treatment at 1550°C significantly decreased the strength due to the formation of large pores in the bulk of the material. Key words MoSi2, microstructure, fracture, mechanical properties Full text (339 KB)
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