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Field
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conventional simulators. Finite element-based methods such as Mixed-Finite-Element or Control-Volume methods are convenient thanks to their suitability for complex unstructured grids. Applications are sought
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properties to them, generates a finite element mesh, and performs virtual measurements. The goal is to build a computational platform that can predict the macroscopic behavior of a material from knowledge of
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QUALIFICATIONS: • PhD in Electrical and Computer Engineering, Mechanical Engineering, Physics, or a closely related field. • Demonstrated expertise in MEMS/NEMS design and modeling, including finite element
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. Experimental techniques and procedures applied to quasi-fragile materials. Specific Requirements Knowledge: Mechanics of quasi-brittle and viscoelastic materials: rocks and concrete. Finite Element Method
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field in hand by May 2026. Preferred Qualifications: Experience in Thermal Spray Materials/Processes/Characterization/Modeling. Experience in Solid Mechanics/Thermomechanics/Finite Element Analysis
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related field in hand by May 2026. Preferred Qualifications: Experience in Thermal Spray Materials/Processes/Characterization/Modeling. Experience in Solid Mechanics/Thermomechanics/Finite Element Analysis
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including finite element simulations. You will have the opportunity to develop and test models for unique device structures including graded channel/multi-channel GaN RF HEMTs, as well as state-of-the-art GaN
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pulse heating; Finite element modeling; High strain rate; Kolsky bar; Eligibility citizenship Open to U.S. citizens level Open to Postdoctoral applicants Stipend Base Stipend Travel Allotment
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using computational tools (e.g., numerical solvers, finite element frameworks, or custom research codes). Leading the preparation of peer-reviewed journal publications in high-impact mechanics and
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related field in hand by May 2026. Preferred Qualifications: Experience in Thermal Spray Materials/Processes/Characterization/Modeling. Experience in Solid Mechanics/Thermomechanics/Finite Element Analysis