Characterization of mechanical and fracture behaviour in nano-silicon carbide-reinforced vinyl-ester nanocomposites

Characterization of mechanical and fracture behaviour in nano-silicon carbide-reinforced vinyl-ester nanocomposites

Vinyl-ester/nano-silicon carbide nanocomposites were synthesised and investigated in terms of their mechanical and fracture properties. Results show that the addition of nano-SiC particles increases modulus and strength, but reduces toughness. The enhancement in strength for nanocomposites was attri...

Full description

Bibliographic Details
Main Authors: Alhuthali, Abdullah, Low, It Meng
Format: Journal Article
Published: Taylor & Francis Inc. 2013
Subjects:
Transmission electron microscopy
Polymer nanocomposites
Nano-silicon carbide
Mechanical properties
Fracture toughness
Online Access:http://hdl.handle.net/20.500.11937/13563
Description
Summary:Vinyl-ester/nano-silicon carbide nanocomposites were synthesised and investigated in terms of their mechanical and fracture properties. Results show that the addition of nano-SiC particles increases modulus and strength, but reduces toughness. The enhancement in strength for nanocomposites was attributed to good interfacial adhesion and good degree of dispersion. The experimental data for elastic modulus were modelled using several theoretical models. The excellent agreement with the experimental data for elastic modulus given by the Guth and Kerner models indicate that the degree of dispersion and the quality of particle/matrix adhesion were both important considerations for the prediction of elastic modulus.

Similar Items