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Batteries Composites (SBC) aims at developing multifunctional composites structures that can support mechanical forces during operation and simultaneously act as electrochemical energy storage. This new class
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based on 2D materials are emerging as novel tools for low-cost, high-resolution and high-throughput detection of biomolecule mechanics and dynamics. On one hand, they can enable important discoveries in
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of ‘’fully biobased’’ FRP composites in various hygrothermal conditions will be investigated and NDT techniques will be employed to simultaneously monitor damage mechanisms. This PhD position is within Horizon
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the fully mechanical propulsion concepts as nowadays applied in shipping. Even (partly) mechanised contemporary Wind Assisted Ship Propulsion (wasp) concepts require an independent back-up propulsion system
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production and manufacturing systems in high-tech industry, and substrate handling systems can be found everywhere in this industry. Every mechanical contact between system components that are in relative
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presentations and workshops at national and international conferences. Besides your research activities, you will also take part in teaching and supervision activities within the Faculty of Mechanical Engineering
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For their research, professors, PhD- and master-students, and postdocs use our high-quality Macro Mechanics Lab, that is part of the department of Engineering Structures. Our researchers
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the Process & Energy Department of the Faculty of Mechanical, Materials, and Maritime Engineering (3ME). The effort will be highly integrated, framed within the TU Delft Climate Action Program, and in
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team within the Faculties of Aerospace and Mechanical Engineering. We approach problems in a horizontal “team spirit” and continuously traverse boundaries between theory, simulations, and experiments
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the relationship between the mechanical deformation of human skin and tactile perception and how this relation can be effectively simulated via haptic interfaces in digital environments. Our team benefits from