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Funding providers: EPSRC and Swansea University's Faculty of Science and Engineering Subject areas: Polymer and Glyco Chemistry, Biomaterials, Antimicrobials Project description: A significant
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materials (e.g. polymer-polymer, polymer-foam or polymer-inorganic composites), the production of new feedstocks by thermochemical treatment of spent foam and/or the conversion of spent foam into new products
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of other excipients such as polymers or lipids for enhancing drug dissolution rates with improved stability Physicochemical characterizations of extrudates Employment of Quality by Design (Qbd) and Process
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product. Global market for wet wipes was around 15.2 Billion USD in 2022, and is projected to reach 33.8 Billion USD by 2030. The sector has transitioned from using non-degradable polymer such as PE, PP
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and electroactive polymers as proprioceptive materials. These materials will be printed with integrated sensors to form a cohesive, structurally robust system. The process of shape optimisation will be
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Funding providers: EPSRC and Swansea University's Faculty of Science and Engineering Subject areas: Polymer and Glyco Chemistry, Biomaterials, Antimicrobials Project description: A significant
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Group: Centre of Polymer and Composites (CPC) Subject Areas: Manufacturing Engineering, Mechanical Engineering, Solid Mechanics, Structural Mechanics
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USD in 2021, and has a significant impact on not only the wellbeing of human, but the environment. The chemical compounds deposited on hair fibres include fatty alcohols, polymers, surfactants, and
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: Continued development of existing mathematical models of corrosion/ageing. Development of models of reactive transport through polymer foams. Development of a model of competitive solubility when a polymer is
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the time required to screen prototypes. One of the failure mechanisms observed during these is an undesirable whitening (or blush) of the polymer film. The work will develop a nanoscale model of a