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of this project is the development of new software based automated workflows which will be centred around finite element simulation and allow for accelerated technical innovation. Scenarios to be investigated
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engineering challenges? In this role, you’ll take the lead in design validation and verification using Finite Element Analysis (FEA) and dynamic simulation techniques. You will also have the opportunity
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the model, its numerical implementation in a finite element code, and its validation against experimental data in collaboration with experimental collaborators. You will also engage with the hub activities
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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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of how thin a metal sheet current technology can cut and handle. Previous experience / requirements: Skills in mechanics of materials (design and data analysis in mechanical testing), Modelling and
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-based micro-finite element (microFE) models of the mouse alveolar bone can be used to evaluate accurately the bone stiffness, bone strength and local deformation, as compared against state-of-the-art
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experimental work as well as theoretical and finite element simulations. The position requires a strong aptitude in materials engineering, solid and fracture mechanics as well as 3D CAD and finite element
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(providing expertise in magma emplacement and host rock deformation), Dr Susanna Ebmeier (volcano monitoring), Professor John Forth (rock mechanic experiments), and Dr James Hickey (Finite Element modelling
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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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experience in microstructural analyses. Familiarity with mechanical testing procedures and, ideally, experience in numerical simulation (e.g., finite element methods). Strong analytical skills, an independent