Electrical properties of biomorphic SiC ceramics and SiC/Si composites fabricated from medium density fiberboard
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Fecha
2011Materia/s Unesco
3305.32 Ingeniería de Estructuras
3305.39 Construcciones de Madera
3305.90 Transmisión de Calor en la Edificación
3328.16 Transferencia de Calor
3312.08 Propiedades de Los Materiales
3312.09 Resistencia de Materiales
3312.13 Tecnología de la Madera
Resumen
A study has been made of the dependences of the electrical resistivity and the Hall coefficient on the temperature in the range 1.8-1300K and on magnetic fields of up to 28kOe for the biomorphic SiC/Si (MDF-SiC/Si) composite and biomorphic porous SiC (MDF-SiC) based upon artificial cellulosic precursor (MDF - medium density fiberboards). It has been shown that electric transport in MDF-SiC is effected by carriers of n-type with a high concentration of ~1020cm-3 and a low mobility of ~0.4cm2V-1s-1. The specific features in the conductivity of MDF-SiC are explained by quantum effects arising in disordered systems and requiring quantum corrections to conductivity. The TEM studies confirmed the presence of disordering structural features (nanocrystalline regions) in MDF-SiC. The conductivity of MDF-SiC/Si composite originates primarily from Si component in the temperature range 1.8-500K and since ~500 to 600K the contribution of MDF-SiC matrix becomes dominant. © 2010 Elsevier Ltd.
A study has been made of the dependences of the electrical resistivity and the Hall coefficient on the temperature in the range 1.8-1300K and on magnetic fields of up to 28kOe for the biomorphic SiC/Si (MDF-SiC/Si) composite and biomorphic porous SiC (MDF-SiC) based upon artificial cellulosic precursor (MDF - medium density fiberboards). It has been shown that electric transport in MDF-SiC is effected by carriers of n-type with a high concentration of ~1020cm-3 and a low mobility of ~0.4cm2V-1s-1. The specific features in the conductivity of MDF-SiC are explained by quantum effects arising in disordered systems and requiring quantum corrections to conductivity. The TEM studies confirmed the presence of disordering structural features (nanocrystalline regions) in MDF-SiC. The conductivity of MDF-SiC/Si composite originates primarily from Si component in the temperature range 1.8-500K and since ~500 to 600K the contribution of MDF-SiC matrix becomes dominant. © 2010 Elsevier Ltd.





