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Improving the mechanical properties of carbon fibre composites via inkjet printed polymer inclusions
Improving the mechanical properties of carbon fibre composites via inkjet printed polymer inclusions Department of Mechanical Engineering PhD Research Project Self Funded Dr Patrick Smith
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Next-Generation Hydrogen Production Using Polymer Nanotemplates Department of Chemical & Biological Engineering PhD Research Project Self Funded Dr Alisyn Nedoma Application Deadline: Applications
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Modelling and characterisation of chip formation and machining induced defects of nano-particle toughened Carbon Fibre Polymer Composites Department of Mechanical Engineering PhD Research Project
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Next-Generation Hydrogen Production Using Polymer Nanotemplates
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such as cancer and inflammatory diseases. To create these nanoparticles, we will use a biomimetic technique called molecular imprinting. This allows us to construct bio-recognition sites into polymeric
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to develop new manufacturing processes that will enable the high throughput production of nanoscale polymer micelles loaded with anticancer drugs. Obtaining stable, loaded micelles is a challenge that has
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fibre reinforcements in a thermosetting polymeric matrix) to meet this need is now commonplace for several reasons. These include significant weight savings over traditional materials and design
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commercially viable. In this project, an experimental investigation into the performance of different designs of Polymer Electrolyte Membrane fuel cells (PEMFCs) will be undertaken; this will involve