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Requisition Id 16012 Overview: We are seeking a Thermal Mechanical Engineer who will focus on conceptualization, design, build, and deployment of Electromagnetic Isotope Separation (EMIS) devices
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MSTD on the physical metallurgy of aluminum alloys for various applications including automotive, aerospace, and thermal management. Projects will include application of physical metallurgy principles
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(SNS). The suite includes the two thermal and epithermal spectrometers and two cold spectrometers with one capable of full polarization analysis. These instruments support a diverse science community
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to extremely high-value isotopic material including casting, alloying, thermal processes, milling, and powder processing Collaboration on the development of targets for advancing enrichment technologies
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characterization, mechanical testing, 3D microstructural analysis, finite element simulations, atomistic modeling, and thermal transport measurement techniques to advance mechanistic understanding and predictive
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reactive transport or thermal hydrology modeling. Experience with high-performance computing (HPC). Motivated self-starter with the ability to work independently and to participate creatively in
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for additive manufacturing (AM). The candidate will aid staff in conducting high quality research by developing, integrating, and deploying advanced sensing modalities (e.g., thermal, optical, acoustic, etc
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systems, incorporating coupled structural, fluid, thermal, and nonlinear dynamic effects. Experience developing and deploying digital twin architectures for rotating equipment, including model calibration
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techniques for composite structures, including hybrid and multi-material systems Utilize advanced characterization methods to evaluate multifunctional materials, including mechanical, thermal, and
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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