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Hours Full time Contract (temp/perm) 4 years, preferred start date September 2024 Closing date 14th April 2024 The project: Rolls-Royce has supported PhD students at the University of Bristol on a
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to their environment. In this PhD studentship, we will develop the materials, methods, and designs to control the 3D distribution of differing functional materials, giving high-resolution control over graded properties
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Location: UK Other Supervisors: Professor Richard Hague, Professor Chris Tuck, Dr. Geoffrey Rivers PhD project description: Inkjet printing allows multiple materials to be 3D-printed concurrently
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-machine manufacturing has experienced significant growth over the past five years, with projections indicating continued expansion. Improved efficiency can be achieved by design and materials optimization
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summer schools, specialised theme meetings, and innovation and commercialisation sandpits. Description: Composite materials are used in prime and secondary applications such as aerospace, renewable energy
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from raw drinking waters, using novel magnetic composite materials. Objectives The student will be directly involved in both the synthesis of the novel magnetic materials (in collaboration with Prof
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content distributions from XCT scans for hybrid architecture carbon fibre composites, and subsequently develop a novel material model linking the material’s meso-structure to mechanical properties to create
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will carry out his/her doctoral research at UCL in materials chemistry for the synthesis and discovery of new metal oxide-based scintillator materials for imaging. The PhD studentship will focus
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, lightweight materials for aerospace, and bio-sourced solvents and surfactants for consumer products. The PhD student will join the ‘Advanced Nanomaterials Group’ under the supervision of Dr Cristina Vallés and
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of Materials, NGI and Henry Royce Institute, as well as an ‘as needed’ access to the capabilities of Syensqo. About the PhD project: Driven by CO2 emission targets and the need for light-weight structures