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activities: · Understanding/simulating the diffusion paths and cavitation in thermoplastic liners. · Multi-physics simulation of the diffusion process in thermoplastic orthotropic composites
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) and Computational Fluid Dynamics (CFD), for polymer composite manufacturing processes Perform multi-physics simulations involving coupled thermal, mechanical, and material behavior across multiple
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, degradation, and damage evolution under realistic service conditions. Emphasis is placed on non-destructive, real-time monitoring approaches applicable to polymer matrix composites. The outcomes will support
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integrity. We are looking for someone who shares our values and who will support the mission of the university through their work. Required Skills: Microfabrication on rigid and flexible polymer substrates
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Polymers using a combination of quantum and force field-based simulations that will be further integrated into a force field-based Molecular Dynamics (MD) approaches to assess the permeability and
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into polymer matrices. - Use of luminescent species for applications such as sensors. - Knowledge of DFT‑type simulation methods for modeling molecular properties. - Experience writing scientific articles and
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through their work. Required Skills: Microfabrication on rigid and flexible polymer substrates (photolithography, metal evaporation, etching) Experience with packaging schemes such as flip-chip bonding
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on multiscale study of hydrogen embrittlement in steels. The primary mission of the postdoc is to support experimental efforts as well as large scale simulations by means atomistic simulations. Designing and
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polymer blending and colloidal lithography. Low-cost fabrication processes will be developed and optimized, and their performance will be analyzed using optical spectroscopy. Results will then be compared
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scientific machine learning. Experiences in large language models, molecular modeling and simulations, and/or polymer science are preferred but not required. Applications should be submitted online