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The role The purpose of the role is to support the PI (Dr Rainer Groh) in the delivery of an ambitious research programme funded through a UK Research & Innovation Future Leaders Fellowship. By
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for aerodynamic sound sources, sound propagation in atmosphere and effect of the reflection from the ground. We will investigate and quantify the critical role of turbine blade geometry and blade
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rapidly qualify new tooling designs. Establish if signal data can predict the impact of varying tool geometry or coating on surface integrity and tool life. The Impact Industrial Efficiency: Enable
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The purpose of the role is to support the PI (Dr Rainer Groh) in the delivery of an ambitious research programme funded through a UK Research & Innovation Future Leaders Fellowship. By combining
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The purpose of the role is to support the PI (Dr Rainer Groh) in the delivery of an ambitious research programme funded through a UK Research & Innovation Future Leaders Fellowship. By taking
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. Establish if signal data can predict the impact of varying tool geometry or coating on surface integrity and tool life. The Impact Industrial Efficiency: Enable increased productivity and significant cost
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Topologically constrained physics-informed machine learning for modelling complex spin textures (S3.5-COM-Ellis) School of Computer Science PhD Research Project Competition Funded Students Worldwide
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. 4. In-plane waveguide excitation significantly reduces laser damage to sensitive samples. 5. The chip geometry is stable; no free-space parts. The PhD project involves photonics device simulation and
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the duct around bends. It would investigate the opportunities offered by additive manufacture for creating hollow coil geometries tailored for use with cryogenic fluids. Examples of both types of coil would
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construction elements. Thermoplastic composites blades, likely the blades of the future, have additional potential in that they can be thermoformed into new geometries, while also ‘healing’ the thermoplastic