posted on 2013-12-11, 11:40authored byAndrew Leatherbarrow, Houzheng Wu
The Young's modulus, hardness, fracture toughness and ductility of the key constituents were characterised using nano-indentation for three types of carbon-fibre/carbon silicon carbide composite manufactured through different routes and/or using different carbonaceous raw materials. Under indentation, all of the carbon constituents demonstrated much less ductile deformation than the silicon carbide and silicon did in these composites. Between two types of PAN-based carbon fibre, as well as of pyrolytic carbon, a difference of around a factor of two was evident in the Young's modulus and hardness. For the silicon carbide, a difference of around 100GPa and 5GPa was recorded for the mean Young's modulus and hardness respectively; for silicon, only a small variation was evident. The estimated mean fracture toughness of the silicon carbide ranged between 0.7 and 1.2MPa.m , whilst the silicon was approximately 0.6MPa.m . Results for the constituents were discussed in terms of their elastic/plastic behaviour.
History
School
Aeronautical, Automotive, Chemical and Materials Engineering
Department
Materials
Citation
LEATHERBARROW, A. and WU, H., 2012. Mechanical behaviour of the constituents inside carbon-fibre/carbon-silicon carbide composites characterised by nano-indentation. Journal of the European Ceramic Society, 32 (3), pp. 579 - 588.