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Are you interested in sustainable structural design to reduce the CO2 footprint of buildings? Are you passionate about bio-based composite material systems and want to enhance their use in
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structural materials, like mother-of-pearl and bone, despite containing a high-volume fraction of brittle constituents, calcium carbonate and calcium phosphate respectively, are among the most fracture
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circular transition of the built environment, then this position is for you. Context The construction sector is responsible for 50% of raw material consumption and 35% of all waste. In the Netherlands
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role in addressing the structural role of citizens in data collection and reuse for research and innovation, ensuring trust and ethical considerations are paramount. Second, you will take a leading role
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candidates for PM-free high-torque electrical drive is the variable flux reluctance machine (VFRM) because of its robust and cost-effective structure. There is a high demand for a comprehensive exploration of
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negative consequence of this is that pressure disturbances in these water circuits can generate undesirable forces on the structure. These pressure disturbances may be flow induced, from circuit components
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/mechanical/environmental treatment, testing and recycling, and has access to the structural design laboratory at the same department, and shares facilities with the sister Department of Chemical Engineering
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on WLS, with physics-aware neural network structures to improve network observability and grid monitoring capability. Besides a normal estimation of system state, it should be also possible to determine
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to combine physics-based models, i.e. state estimation based on WLS, with physics-aware neural network structures to improve network observability and grid monitoring capability. Besides a normal estimation of
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negative consequence of this is that pressure disturbances in these water circuits can generate undesirable forces on the structure. These pressure disturbances may be flow induced, from circuit components