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Engineering, or a related field Strong background in solid mechanics, lightweight structures, or composite materials Strong written and verbal communication skills in English Experience in finite element
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interfaces Implement models in finite element frameworks and validate them experimentally Develop your own scientific ideas and communicate results through publications and presentations Contribute to teaching
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, residual stress, tolerancing and finite element analysis, as well as in manufacturing processes such as AM, welding and megacasting Proficiency in written and spoken English (Swedish language courses
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, structural optimization, coupled problems, and experimental mechanics, with applications to metals, polymers, fibrous materials, and granular materials. Numerical methods, such as the finite element method
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, structural optimization, coupled problems, and experimental mechanics, with applications to metals, polymers, fibrous materials, and granular materials. Numerical methods, such as the finite element method
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acting on operators, such as computational methods for fractional powers of differential operators. A particular emphasis will be on the development, implementation and error analysis of finite element
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materials, device designs, and operational modes for these bioelectronic implants. You will also develop and validate finite element models (COMSOL Multiphysics) to support the experimental work. The work is
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phase-field methods within finite element frameworks with advanced experiments in simulated nuclear reactor water environments to predict material lifetime. The project includes materials characterization
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mathematics. An important aspect of the ongoing research is solving stochastic partial differential equations on surfaces, e.g., with surface finite element methods. The following requirements are mandatory: A