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to bring about a paradigm shift in the design, fabrication, and functionalization of 3D-printed structures to create an innovative thermochemical heat transformer. These will assist in temperature boosting
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, transport, waste, construction and manufacturing industries to name few. In order to meet the increasing demand of greater accuracy and precision, while decreasing environmental footprint, development
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element methods (DEM) to join University of Twente (Netherlands) and work on micro- and meso-scale modelling to understand the initiation and dynamics of submarine landslides. This project is part of the EU
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framework. The end goal is to come up with a sensible model structure for a unified granular micromechanically based solid-fluid model by learning model structures from fully-resolved simulations particle
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: the right material in the right place with an arbitrary 3D material layout, for obtaining site-specific properties. You will focus on the design aspects of structures with these new functional multi
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collectors. This approach allows for the precise mapping of temperature data across the built environment. With this project, we do not only enhance our understanding of urban climate dynamics, but also we aim
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between seawater and sediment is crucial in the landslide dynamics. Recent studies have shown that the material point method (MPM) can describe the movement of saturated sediment and the hydrodynamic
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of decision-making should inform effective humanitarian and governmental assistance to build resilience with respect for local knowledge and construction practices. Your research methodology will preferably be
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-) automatic segmentation and processing methods applicable to different bony structures. We demonstrate the benefit and potential of such a virtual platform by selected use cases in the orthopaedic domain, e.g