Mechanical and fracture properties of halloysite nanotube reinforced vinyl-ester nanocomposites

Mechanical and fracture properties of halloysite nanotube reinforced vinyl-ester nanocomposites

The mechanical and fracture properties of vinyl-ester composites reinforced with halloysite nanotubes have been investigated. Enhancements in toughness are attributed to crack bridging, deflection, and localized plastic deformation, while strength improvements can be attributed to the large aspect r...

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Bibliographic Details
Main Authors: Alhuthali, Abdullah, Low, It-Meng
Format: Journal Article
Published: John Wiley and Sons Inc 2013
Subjects:
nanotubes
mechanical properties
graphene and fullerenes
nanostructured polymers
composites
Online Access:http://hdl.handle.net/20.500.11937/15438
Description
Summary:The mechanical and fracture properties of vinyl-ester composites reinforced with halloysite nanotubes have been investigated. Enhancements in toughness are attributed to crack bridging, deflection, and localized plastic deformation, while strength improvements can be attributed to the large aspect ratio of fillers, favorable interfacial adhesion and dispersion, and inter-tubular interaction. Comparisons of experimental data on elastic modulus and mathematical models for predicting particulate polymer composites have verified the models of Paul and Guth. The aspect ratio of fillers and the degree of interfacial adhesion are crucial factors in the prediction of elastic modulus in these polymer nanocomposites.

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