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resolved analysis of metal–organic frameworks? Are you interested in host–guest interactions in membranes? Metal–organic framework (MOF) materials in both crystalline and glass forms exhibit exceptional
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of composites and membrane materials? Would you like to develop new electron microscopy or focused ion beam microscopy approaches for spatially resolved analysis of metal–organic frameworks? Are you interested in
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melt quality control of aluminium melt for optimisation. • High pressure dye casting of aluminium alloys. • Microstructure and mechanical properties of die casting samples. • Understand
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. These findings will inform a new generation of Finite Element computational models that seek to include the complex behaviour of rocks into volcano deformation models. You will join and work with Dr Craig Magee
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during magma emplacement. These findings will inform a new generation of Finite Element computational models that seek to include the complex behaviour of rocks into volcano deformation models. You will
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transport infrastructure. Your main duties will be carrying out experimental tests on the AMs, multiphysics and multiscale finite element (FE) modelling, analysing the data, and presenting the research
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and knowledgeable in the areas of stress analysis (including the Finite Element Method), material characterisation (particularly flow stress determination and modelling), mechanical testing methods
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floats (microstructure turbulence sensors) to advance our understanding of the role of turbulent mixing in ocean circulation and the climate system. As part of REMIX-TUNE, you will contribute
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(https://uclcami.github.io/ ). This concentrates on microstructure imaging using diffusion MRI and will focus on technical developments underpinning applications in oncology. This role is an open-ended
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creative as well as strictly philological element to this work: the objective is not completeness but to produce an edition which enhances readers’ appreciation of the work. In addition, the postholder will