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conducted with different composite material parameters (thickness, lay-up, and types of fibre and matrix) in order to develop optimised FML composites with high durability and fatigue life. The expected
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stiffness by changing their composition and self-assembly process. The relationship between nanoparticle structure and stiffness will be determined both through experimental and modelling approaches. Finally
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the possibility for 6 month extension. Three (3). Three (3). The ideal candidate will have first-class Honours or a Masters degree in material science/engineering, nanotechnology, chemistry, immunology or a related
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are developing new composites to address the Waste Heat problem. Waste Heat is a huge challenge in the global energy transition. We are developing new materials and system to enhance the conversion of heat to
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materials based polymer/elastomer composite development for 3D printing of tyre tread represents the biggest knowledge gap in the current developmental cycle. The aim of this project is to develop a robust
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/grades, relevant professional experience, publications (if any), awards (if any), and names of referees. Knowledge and background in Solid Mechanics, Structural Mechanics, and Engineering Materials
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The scholarship will be suited to a materials/polymer scientist and/or chemical engineering student willing to develop skills in polymer chemistry and materials upcycling. The scholarship will be
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characterisation for all optical communications 2D materials and graphene photonics 3D printing of composite materials Nanophotonics solar energy harvesting, storage and applications Photonics approach for solar