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sustainable structures and infrastructures. Our aim is to meet societal demands in transportation, the energy transition and sustainable reuse. Research themes include dynamics of structures, mechanics
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Harnessing Nonlinear Dynamics: From Data-Driven Discovery to Engineering Job description Nonlinear dynamics lies at the centre of many mechanical systems, from large-scale structures to nanoscale
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these exciting and unexplored defense mechanisms, working in an international and multidisciplinary team. Your discoveries will contribute to fundamental science and will inspire new tools for biotechnology and
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. Research themes include dynamics of structures, mechanics of materials related to e.g. climate change, modelling and design of railway systems, multi-scale modelling of pavement materials and structures
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electrical disorders that occur in the absence of structural abnormalities of the heart. These conditions are linked to SCD in young, otherwise healthy individuals and are caused by monogenic defects in genes
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mechanics make this possible? Join us in exploring the fascinating world of vascular biomechanics. PhD in Arterial Biomechanics Our goal: To understand how age-related changes in arterial mechanics contribute
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mechanical stress into useful electrical energy, enabling autonomous sensors and systems in demanding industrial and structural environments. The research will involve a combination of analytical modelling
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understanding how G-quadruplexes are resolved, the mechanisms that govern the resolution of other non-B form structures remain largely unknown. Importantly, these structures are particularly common in repetitive
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softness with mechanical performance. Compliant mechanisms, particularly spatial compliant shell mechanisms, offer a promising solution. These structures can achieve large, controlled deformations while
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Are you fascinated by the large role software plays in the control of high-tech systems? Are you eager to contribute to improving supervisory controller development, and making it more structured