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at the Mechanics of Composites for Energy and Mobility Lab. (MCEM, https://composites.kaust.edu.sa ). Field of study A Postdoctoral opening is available in the area of Insitu Multiphysics
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Constitutive PINN algorithms for damage and fracture 2) Months 7-12 A fully functional software for 3D fracture, with all the physical features such as branching, coalescence should exist and the International
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experiments in gelatine (https://doi.org/10.5194/egusphere-egu25-9211). This model will be tested with analogue experiment results from the MAGMA Lab, run by other members of the project team. The second
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around 3 main activities: • In situ characterization of microstructural changes in polymer composites during aging. • In situ characterization of the mechanical and fracture performance of polymer
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | 29 days ago
. This research may include analysis of regional and global stress fields for fracture formation. Mapping using Geographic Information Systems (GIS) tools can be used to constrain the mechanisms and stresses
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Postdoctoral researcher (M/F). Modeling damage during earthquakes. Comparison with geophysical data.
), an internationally renowned laboratory that combines fieldwork, experimentation, and modeling to advance understanding of geological processes, continental surface dynamics, fracture-fluid interactions, and natural
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choose from several health coverage options offered by The Texas A&M University System for themselves and their families, as well as numerous other benefit programs. https://www.tamus.edu/business/benefits
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, glass and slow dynamics, magnetic and fracture properties of disordered solids, complex fluids, colloids, thermoelectricity & heat transfer, active matter and biological objects,… The common challenge, in
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or interest in mentoring graduate and undergraduate students. Preferred Qualifications Experience with viscoelastic, hyperelastic, or damage/fracture models for soft or polymeric materials.\ Experience with
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strong collaboration with the SHORES multidisciplinary research teams. The project will be focused on advanced modeling of coupled fracture/damage of geomechanical materials when subjected a range of