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responsiveness to environmental stimuli such as solvent composition, temperature, light, or electric fields. In this project, we aim to exploit this responsiveness to design multi-layer polymer brush architectures
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: technologies of polyester resins, epoxies, polyurethanes, polyamides, and thermoplastics; polymer modifications to impart specific properties; polymer composites; synthetic polymer adhesives; recycling; polymers
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continuous-fibre-reinforced polymers (composites) under monotonic and cyclic loading, in particular using acoustic emission and thermography. Derivation of service life models for composites. Involvement in
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for Innovation for Sustainable Composites Engineering launched in 2024: https://www.bristol.ac.uk/composites/cdtsustainablecompeng/ . Research focus areas: Mechanical Engineering, Civil Engineering, Aerospace
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AMIC is expanding rapidly, and we are seeking to appoint a number of talented Engineers to join our Sustainable Polymer and Composite team. This campaign will support multiple appointments and
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formulations to be used as matrices for fiber-reinforced composites. Vitrimers represent an innovative class of polymers that combine the mechanical properties and durability of thermosets with
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Materials Science, Characterisation Materials Science, Defence Composite Materials, Functional Composite Materials, Energy, Nanomaterials, Low Dimensional Materials, Biomaterials Materials, Biological
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responsibilities of the candidate in this position will include conducting research on innovative polymer and composite materials with protective properties. Specifically, the research will include analyzing
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details Supervisors: Dr Oksana Trushkevych and Prof Tony McNally Research area and project description: Develop scalable acoustic methods to structure advanced polymer composites for lightweight, low‑carbon
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polymer composites. This project is a direct, high-impact follow-on from our published work on Composite Fibre Additive Manufacturing (CFAM), a novel sheet lamination technique. The initial research