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The successful candidate will be responsible for: 1. Develop the numerical and analytical tools required to design these tunable random architectures and predict the mechanical behavior
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the mechanical behavior of interfaces through local micro-shear testing. Your role As part of the Thermo-Chemomechanics and Interfaces Group, your key responsibilities will include: Advanced micro-/nano
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, lipid vesicles, polymer physics, active materials, single molecule biophysics, biomaterials, materials chemistry, fluid mechanics, rheology, and computational modeling. Candidates should apply at https
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-on experience in: Additive manufacturing of High Entropy alloys and Al-based alloys Powder characterization – Microstructure characterization (SEM, EBSD, TEM, XRD) Mechanical testing (tensile, fatigue, creep
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curious to deliver work that matters, your journey starts here! Innovation. Interdisciplinary collaboration. Complex problem solving. In Carnegie Mellon University’s Department of Mechanical Engineering
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such as cobalt and rare earth elements from dilute sources. The successful candidate will be responsible for applying advanced quantum mechanical methods to model metal–peptide binding interactions, guide
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curious to deliver work that matters, your journey starts here! Innovation. Interdisciplinary collaboration. Complex problem solving. In Carnegie Mellon University’s Department of Mechanical Engineering
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Physics Complex Systems Computer Simulation (more...) Theoretical Physics / Complex systems including applications to biology Fluid Mechanics Appl Deadline: 2025/09/30 11:59PM (posted 2025/07/22
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, machine-learning model development, structural sensing and health monitoring, conducting physical experiments, and validation of computational models. Required Qualifications: A successful applicant must
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School of Medicine. The position offers a unique opportunity to contribute to a high-impact translational research program focused on the molecular and cellular mechanisms underlying pancreatic cancer