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using optical laser-based systems for device temperature and material thermal characterization, as well as developing material / device thermal models for device design using finite element and other
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colleagues to understand the stress distribution at the bone-implant interface through finite element analysis. Work collaboratively with other colleagues to validate finite element models based on in situ
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and specialist in the areas of composite materials, structural mechanics, optimisation and finite element analysis. Apart from computational expertise, the role holder will also be comfortable in
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Engineering/Materials Science. You will also have good experience of finite element analysis techniques, programming (C++/FORTRAN and Python) and composites manufacturing and production processes. Appointment
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. The following skills are highly desirable but not essential: Ability to program in Matlab/Python Experience with Finite Element Analysis and Reduce Order Modelling Experience in Rapid Prototyping and CAD Design
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immediately post-implantation, and how bone ingrowth alters the stress distribution in the bone and implant. The student will develop physiological, subject-specific finite element analysis (FEA) models from
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and specialist in the areas of composite materials, structural mechanics, optimisation and finite element analysis. Apart from computational expertise, the role holder will also be comfortable in
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simulation and optimisation. Programming (MATLAB, Python, C++, Fortran) for model development and Finite Element simulations. Statistical experimental design and analysis of data (i.e Design of Experiments and
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magnets,” strategically combining different materials. Working with others in the group, you will be able to then simulate your materials using finite element analysis to determine the performance of
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speeds far beyond those of traditional finite element (FE) methods. The key innovation lies in directly modelling discontinuity lines, such as cracks, rather than relying on iterative mesh refinements