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and machine learning, you will help develop new methods for understanding complex failure mechanisms—an area where existing industrial knowledge remains limited. The project will be executed in three
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at the intersections of civil, mechanical, electrical engineering and computer science is important. It will be relevant to have deep experience of at least one of the following areas: Construction production
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scientific advice of the highest quality within building design and processes, building construction and safety, building energy and installation, solid mechanics, fluid mechanics, materials technology
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management, and first and foremost understand the fundamental mechanisms leading to coating failure. Intumescent coatings Intumescent coatings on steel structures swell during a fire to form an insulating
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integration. The focus will be advanced packaging and integration mechanisms for wide-bandgap power devices and passive components (magnetics and capacitors), as well as innovative power delivery architectures
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the molten salt/metal interface at multiple scales, from atomistic to mesoscopic, with the goal of identifying the fundamental mechanisms driving corrosion. Moreover, you will use this knowledge to suggest
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the unsteady dynamics of the tethered aircraft (aircraft structure, aerodynamics and control) and its response to unsteady atmospheric flows. Relevant atmospheric flow regimes include gusts, fronts, and periodic
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include Master’s-level in Mechanical Engineering, Aerospace Engineering, Control Engineering, Wind Energy, or a closely related field. Strong background in control theory, fluid dynamics, structural