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Open Access research that is tackling the climate emergency...

Addressing the energy challenge confronting society is a strategic research theme for Strathclyde. Researchers from across the institution, spanning multiple disciplines, are therefore working together to understand ways of reducing the environmental impacts of energy use, improving energy efficiency, coping with declining fossil fuel supplies, managing an ageing energy infrastructure, and devising policy or economic levers to achieve higher penetration of renewable energy systems and technologies. Strathprints makes this scholarly research content available Open Access thereby ensuring results are available to everyone in order meet the global climate challenge.

Explore some of this Open Access research from the departments of Mechanical & Aerospace Engineering, Electronic & Electrical Engineering, Civil & Environmental Engineering, Naval Architecture, Ocean & Marine Engineering, Economics, Entrepreneurship and the School of Government & Public Policy.

Or explore all of Strathclyde's Open Access research...

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Number of items: 5.

Bashir, S. T. and Yang, L. and Liggat, J. J. and Thomason, J. L.; (2018) A simple chemical approach to regenerating strength of thermally damaged glass fibre for reuse in composites. In: ECCM 2018 - 18th European Conference on Composite Materials. Applied Mechanics Laboratory, GRC. ISBN 9781510896932

Thomason, James and Yang, Liu and Jenkins, Peter and Saez Rodriguez, Eduardo and Nagel, Ulf and Bashir, Sairah Tahir (2018) Towards a new generation of glass fiber products based on regenerated fiber thermally recycled from end-of-life GRP and GRP manufacturing waste. In: Composites Recycling Conference, 2018-04-10 - 2018-04-12.

Bashir, S. T. and Yang, L. and Liggat, J. J. and Thomason, J. L. (2018) Kinetics of dissolution of glass fibre in hot alkaline solution. Journal of Materials Science, 53. 1710–1722. ISSN 0022-2461

Bashir, S.T. and Yang, L. and Anderson, R. and Tang, P.L. and Liggat, J.J. and Thomason, J.L. (2017) A simple chemical approach to regenerating the strength of thermally damaged glass fibre. Composites Part A: Applied Science and Manufacturing, 102. pp. 76-87. ISSN 1359-835X

Bashir, S. and Yang, L. and Anderson, R. and Basri, N. B. and Saez Rodriguez, E. and Liggat, J. J. and Thomason, J. (2016) A cost-effective chemical approach to retaining and regenerating the strength of thermally recycled glass fibre. In: The 17th European Conference on Composite Materials (ECCM17), 2016-06-26 - 2016-06-30, Internationales Congress Center München. (In Press)

This list was generated on Mon Feb 6 18:55:29 2023 GMT.