Simulation of carbon fibre composites in an industrial microwave

Nuhiji, Betime, Bower, Matthew P, Swait, Timothy, Phadnis, Vaibhav, Day, Richard and Scaife, Richard J (2020) Simulation of carbon fibre composites in an industrial microwave. Materials Today: Proceedings. ISSN 2214-7853

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Abstract

The ability of microwave radiation to penetrate and interact directly with materials has led to its extensive use in food and drug industries, and more recently in composites manufacturing. Microwave heating of composites allows rapid heat transfer throughout the material thickness with reduced thermal gradients and processing times as well as energy efficiency. Design of microwave systems to process composite parts with various geometries and sizes demands improved understanding of electromagnetic energy distribution and factors influencing it. Finite-element (FE) models can be efficient design tools in such cases, as physical experimentation can be impractical. In this study, a fully-coupled FE model of a carbon fibre composite in an industrial microwave environment is developed using COMSOL Multiphysics®. The effects of the heating process parameters including the number of active magnetrons, specimen thickness and the variation in the frequency of radiation on the electromagnetic field distribution are studied. The FE model showed that a substantial difference in the electromagnetic field distribution exists for the frequencies above 1 GHz compared to the lower frequencies in the microwave regime, resulting in non-uniform heating.

Item Type: Article
Keywords: Electromagnetic energyElectromagnetic modellingFinite element modellingMicrowave curingCarbon fibre reinforced composites
Divisions: Applied Science, Computing and Engineering
Depositing User: Hayley Dennis
Date Deposited: 08 Apr 2020 09:44
Last Modified: 08 Apr 2020 09:44
URI: http://glyndwr.repository.guildhe.ac.uk/id/eprint/17576

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