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Polymers and Polymer Composites

CHARACTERIZATION AND MODELLING OF HYGROTHERMAL EFFECTS IN THERMOPLASTIC NANOCOMPOSITES

July 1, 2011 By: Samit Roy; Kameshwaran Narasimhan Research article

Title: CHARACTERIZATION AND MODELLING OF HYGROTHERMAL EFFECTS IN THERMOPLASTIC NANOCOMPOSITES
Page Range: p.527-542
Author(s): Samit Roy; Kameshwaran Narasimhan
File size: 667K
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Journal: Polymers and Polymer Composites
Issue Year: ppc
Volume: 19
Issue No: No.7

Abstract
The hygrothermal and mechanical characterisation of continuous fibre-reinforced nanocomposites in compression moulded E-Glass fibre-reinforced in polyamide-6 or nylon-6 matrix with and without different weight addition of nanoclay have been performed. E-Glass/Nylon-6 nanocomposite was characterized by means of X-Ray Diffraction to determine the nanoclay dispersion morphology. Significant improvement were achieved in compressive strength, shear strength and barrier properties with relatively low nanoclay loadings. The baseline and nanoclay modified E-Glass/Nylon-6 specimens were immersed in de-ionized water at 50 degrees C and aged hygrothermally. Mechanical tests on unaged E-Glass/Nylon-6 nanocomposite confirmed strength enhancement with nanoclay addition, with a significant improvement in compressive strength (50% at 4 wt.% nanoclay loading) and shear strength (~36% at 4 wt.% nanoclay loading). Mechanical tests on hygrothermally aged E-Glass/Nylon-6 modified with 4 wt.% nanoclay loading showed that hydrothermal degradation is drastically reduced with a significant reduction (~30%) in moisture uptake compared to baseline E-Glass/Nylon-6 composites. An analytical model is developed to capture the diffusion mechanism and attribute the change in diffusivity and moisture uptake with weight addition of nanoclay to tortuosity and reduction in free volume created by the presence of nanoclay. The loss in change in free volume computed using Atomic Force Microscopy images is compared with analytical model. 30 Refs.

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