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Electrifying news: Nano-modified aerospace composites

Date:
December 19, 2016
Source:
University of Surrey
Summary:
New composite technology will see enhanced electrical and thermal conductivity of conventional composite materials that has previously been lacking, say scientists. Novel functionality including sensors, energy harvesting lighting and communication antennae will now be integrated into the structure of the composite material. The new technology will have wide-reaching benefits in the aerospace industry, they say.
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New technology that could enhance both the electrical and thermal conductivity of conventional composite materials has been developed thanks to a collaboration between the University of Surrey, University of Bristol and the aerospace company Bombardier.

Carbon fibre composites, composed of reinforcing carbon fibres within a plastic, have revolutionised industries that demand strong, yet light materials. However, their application has been hindered by inherently poor electrical and thermal conductivities.

New research, published in the journal Scientific Reports, demonstrates that by growing nanomaterials, specifically carbon nanotubes, on the surface of the carbon fibres it is possible to impart these necessary properties.

The research, conducted at the University of Surrey's Advanced Technology Institute (ATI) and the University of Bristol's Advanced Composite Centre for Innovation and Science (ACCIS), shows off the potential of a carbon fibre reinforced plastic to be made multifunctional, while still maintaining its structural integrity. Novel functionality including sensors, energy harvesting lighting and communication antennae can now be integrated into the structure of the composite to usher in a new era in composite technology.

Professor Ravi Silva, Director of the ATI and Head of the Nanoelectronics Centre (NEC) at the University of Surrey said: "In the future, carbon nanotube modified carbon fibre composites could lead to exciting possibilities such as energy harvesting and storage structures with self-healing capabilities. We are currently working on such prototypes and have many ideas including the incorporation of current aerospace/satellite technology in automotive design."

Dr Thomas Pozegic, Research Associate in ACCIS and formerly a PhD student at the University of Surrey, explained: "The aerospace industry still relies on metallic structures, in the form of a copper mesh, to provide lightning strike protection and prevent static charge accumulation on the upper surface of carbon fibre composites because of the poor electrical conductivity. This adds weight and makes fabrication with carbon fibre composites difficult. The material that we have developed utilises high-quality carbon nanotubes grown at a high density to allow electrical transport throughout the composite material."

Dr Ian Hamerton, Reader in Polymers and Composite Materials in ACCIS, commented: "The research has shown that carbon nanotubes can significantly enhance the thermal conductivity of carbon fibre composites. This will have wide-reaching benefits in the aerospace industry, from enhancing de-icing solutions to minimising the formation of fuel vapours at cruising altitudes."


Story Source:

Materials provided by University of Surrey. Note: Content may be edited for style and length.


Journal Reference:

  1. T. R. Pozegic, J. V. Anguita, I. Hamerton, K. D. G. I. Jayawardena, J-S. Chen, V. Stolojan, P. Ballocchi, R. Walsh, S. R. P. Silva. Multi-Functional Carbon Fibre Composites using Carbon Nanotubes as an Alternative to Polymer Sizing. Scientific Reports, 2016; 6: 37334 DOI: 10.1038/srep37334

Cite This Page:

University of Surrey. "Electrifying news: Nano-modified aerospace composites." ScienceDaily. ScienceDaily, 19 December 2016. <www.sciencedaily.com/releases/2016/12/161219085025.htm>.
University of Surrey. (2016, December 19). Electrifying news: Nano-modified aerospace composites. ScienceDaily. Retrieved November 22, 2024 from www.sciencedaily.com/releases/2016/12/161219085025.htm
University of Surrey. "Electrifying news: Nano-modified aerospace composites." ScienceDaily. www.sciencedaily.com/releases/2016/12/161219085025.htm (accessed November 22, 2024).

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