Dense Si3N4-TiN composites, with the second phase ranging from 20 to 40 vol.%, were produced byhot-pressing, gas-pressure sintering and pressureless sintering under nitrogen gas atmosphere. The influence of densificationtechnique and parameters and amount and grain size of TiN particles on microstructure, mechanical properties, electricalresistivity and oxidation resistance was evaluated. The addition of TiN particles increases the stiffness and the fracturetoughness of the base materials. For TiN content higher than 30 vol.% the electrical resistivity of the composites is less than 10^(-3) Ohm cm. An evident effect of the grain size distribution of TiN powders on some mechanical properties was ascertained.The thermal stability of the composites is strongly affected by the amount of the second phase.
Development and characterization of electroconductive Si3N4-TiN composites
Bellosi Alida;Guicciardi o Guizzardi Stefano;Tampieri Anna
1992
Abstract
Dense Si3N4-TiN composites, with the second phase ranging from 20 to 40 vol.%, were produced byhot-pressing, gas-pressure sintering and pressureless sintering under nitrogen gas atmosphere. The influence of densificationtechnique and parameters and amount and grain size of TiN particles on microstructure, mechanical properties, electricalresistivity and oxidation resistance was evaluated. The addition of TiN particles increases the stiffness and the fracturetoughness of the base materials. For TiN content higher than 30 vol.% the electrical resistivity of the composites is less than 10^(-3) Ohm cm. An evident effect of the grain size distribution of TiN powders on some mechanical properties was ascertained.The thermal stability of the composites is strongly affected by the amount of the second phase.File | Dimensione | Formato | |
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Descrizione: Development and characterization of electroconductive Si3N4-TiN composites
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