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Field
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finite element simulations, e.g., Opera, ROXIE, and/or COMSOL. Experience with superconducting magnets and/or cryogenic distribution systems and components Experience working independently and interacting
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withpractical finite element analysis using ANSYS Workbench or Comsol, and pipe stress analysis programs such as CAESAR-II, CAEPIPE, AUTOPIPE, WINPIPE, ROHR2. Experience creating and checking detailed mechanical
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. Experience related to fluid, cryogen, pressure, flow rate, and gas sensors and instrumentation. Computer-aided design (CAD) experience and demonstrated proficiency (SolidWorks™ preferred). Finite-element
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) experience and demonstrated proficiency (SolidWorks™ preferred). Finite-element analysis (FEA) experience and demonstrated proficiency (e.g., Ansys™ or equivalent). Gas dynamical modeling expertise (e.g
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. Experience in application of helium mass‐spectrometer leak detection (MSLD) apparatus. Computer-aided design (CAD) experience and demonstrated proficiency (SolidWorks™ preferred). Finite-element analysis (FEA
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mechanics, FEA, CFD, or equivalent field. Proficiency in one or multiple finite element analysis software (e.g., ABAQUS, LS-Dyna, ANSYS), and in computational fluid dynamic software (e.g., Fluent, CFX
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image correlation (DIC) datasets with fully three-dimensional finite element analysis (FEA) results in mechanical test setups on metals and polymers including uni-axial and bi-axial loading at different
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., J. Chem. Engr. Data., 2020, 65 (7) Multiphysics simulations; computational fluid dynamics; finite volume, finite and discrete element methods; computational fluid and particle dynamics; multiscale
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diagrams (PFDs) for cryogenic plant systems. Experience with practical finite element analysis using ANSYS Workbench Excellent written and oral skills and proficient with MS Office and MS Excel. Preferred
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. Emphasis is placed on model validation against both high-fidelity finite element simulations and experimental tests of structural subassemblies. key words Blast loading; Computational modeling; Finite