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Assist. Amr Ali Abdelaty Ali osman :: Publications:

Title:
Influence of Different Nano-Structured Fillers on the Performance of Epoxy Nanocomposites
Authors: Amr Osman; Abdelmoty Elhakeem; Saleh Kaytbay; Abdalla Ahmed
Year: 2020
Keywords: reduced graphene oxide; nano-alumina; epoxy composites; thermal conductivity; electrical properties; strength.
Journal: Nano Hybrids and Composites
Volume: 29
Issue: Not Available
Pages: 51-60
Publisher: Trans Tech Publications Ltd, Switzerland
Local/International: International
Paper Link:
Full paper Amr Ali Abdelaty Ali osman_Paper.pdf
Supplementary materials Not Available
Abstract:

Nowadays, multi-functional materials are strongly needed to meet the requirements of next-generation electronic devices. In this work, two different nano-structured fillers, reduced graphene oxide (RGO) and nano-alumina, were chosen to study their effect on the thermal, electrical and mechanical properties of the prepared epoxy composites at different loadings (0.5 to 2 wt%). RGO was firstly prepared and characterized by XRD, Raman spectroscopy and TEM confirming its production. The results revealed that RGO showed excellent adhesion with the polymer. Whilst, alumina aggregated and debonded from the matrix, as confirmed by SEM images. Hence, at only 2 wt%, RGO/epoxy composites exhibited the highest thermal conductivity (0.391 W/m-K), which was 1.96 times higher than the neat epoxy. Whereas, the alumina/epoxy composites showed lower increment at the same loading (0.206 W/m-K). However, at 2 wt% RGO, electrical percolation networks had been formed across the matrix (DC conductivity = 2×10-7 S/cm). While, epoxy filled with alumina remained insulative at any loading (~ 10-12 S/cm at 100 Hz). Besides, the tensile strength of the composites was improved by 75% and 37% when filled with 0.5 wt% RGO and alumina, respectively. These results are very useful for preparing multi-functional polymeric materials, which are critically required for packaging industries.

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