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Effect of Temperature and Frequency on Microwave Shielding Behaviour of Functionalized Kenaf Fibre-Reinforced MWCNTs/Iron(III) Oxide Modified Epoxy Hybrid Composite

A strong conductive and magnetically strengthened microwave shielding hybrid epoxy composite was prepared and analyzed. The principal aim of this research work was to prepare a high stable microwave shielding hybrid epoxy composite with surface modified MWCNTs and iron(III) oxide nano particles. The...

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Published in:	Transactions on electrical and electronic materials 2020, 21(4), , pp.366-376
Main Authors:	Merizgui, Tahar, Hadjadj, Abdechafik, Kious, Mecheri, Arun Prakash, V. R.
Format:	Article
Language:	English
Subjects:	Chemistry and Materials Science Electronics and Microelectronics Instrumentation Materials Science Optical and Electronic Materials Regular Paper 전기공학
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cited_by	cdi_FETCH-LOGICAL-c288t-4753a3e0e0bb0b416ec557fe70180533d80380575b8a15f6f46af9fb8547ec813
cites	cdi_FETCH-LOGICAL-c288t-4753a3e0e0bb0b416ec557fe70180533d80380575b8a15f6f46af9fb8547ec813
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creator	Merizgui, Tahar Hadjadj, Abdechafik Kious, Mecheri Arun Prakash, V. R.
description	A strong conductive and magnetically strengthened microwave shielding hybrid epoxy composite was prepared and analyzed. The principal aim of this research work was to prepare a high stable microwave shielding hybrid epoxy composite with surface modified MWCNTs and iron(III) oxide nano particles. The surface-modification on these reinforcements favour the composites been retained their magnetic and electrical conductivity even in elevated temperatures 100 °C and 200 °C and frequency up to 50 GHz. The kenaf fibre, MWCNTs and iron(III) oxide particles were surface-modified by APTMS for effective protection of reinforcements. The composites were prepared using hand layup method. The additions of silane-treated kenaf fibre and MWCNTs with iron(III) oxide into epoxy resin improved the mechanical properties, the same has been discussed in the previous article by the author. The silane surface-modified composites gave unaltered dielectric constant and microwave shielding behaviour in elevated temperatures. The acquisition of residual magnetism remains same as room temperature and 200 °C. The maximum relative magnetic permeability of 1.2 and dielectric constant of 4.0 was observed for composite designation ‘E’ in room temperature. Similarly maximum EM wave attenuation of 44 dB was achieved in J band frequency at 200 °C. These high stable microwave shielding composite materials are capable of serving as shielding materials in electronic communication gadgets, radar and microwave shielding helmets.
doi_str_mv	10.1007/s42341-020-00179-y
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source	Springer Nature
subjects	Chemistry and Materials Science Electronics and Microelectronics Instrumentation Materials Science Optical and Electronic Materials Regular Paper 전기공학
title	Effect of Temperature and Frequency on Microwave Shielding Behaviour of Functionalized Kenaf Fibre-Reinforced MWCNTs/Iron(III) Oxide Modified Epoxy Hybrid Composite
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