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100%, Zurich, fixed-term The Chair of Computational Mechanics of Building Materials in the Institute for Building Materials at ETH Zurich has an opening for a PhD student in self-emerging
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(micro)-mechanical computing elements that use energy from ambient vibrations – without the need for power wires or batteries. These elements will rely on geometric nonlinearities to perform complex tasks
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, the exact contribution of cavitation and the physical mechanisms that allow precise control and optimisation of these therapies are currently unknown. Studying these phenomena experimentally presents a
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performed on a lab-scale, high-pressure test facility. Experimental techniques for fluid mechanics, combustion and acoustics will be used, including laser-based optical diagnostics. The modeling work will
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background The main objective of the project is to develop a polygenic model to investigate the mechanisms underlying drug resistance evolution, focusing in particular on ploidy, reproductive mode and
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engineering, mechanical engineering, process engineering, energy science & technology or similar programs from a recognized university. Ideally, you already have experience in conceptual process design, machine
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with academic and industrial partners. Profile You are highly motivated and dedicated with a master’s degree in electrical, mechanical, or industrial engineering. Programming, modelling, and data