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. Proficiency in hydrodynamic modeling tools (e.g., ANSYS AQWA, OrcaFlex) and finite element analysis software (e.g., Abaqus, ANSYS). Experience with stability and mooring system design. Strong analytical skills
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publications; disseminate study results and research findings in journals and conferences. Perform advanced computational modeling using finite difference and discrete element modeling programs. Perform advanced
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of structural steel components and nonlinear analysis of steel systems, with emphasis on seismic effects - Experience with OpenSees and/or other high-fidelity finite element software; proficiency in
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on CAD and/or Finite Element Analysis for design and drawing of components. Assist on project and grant management support for the co-directors. Job Requirements: Ph.D. in Materials Science, Mechanical
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development, validation, and optimization of 3D-printed propellers. This includes conducting hydrodynamic analysis, finite element modeling, as well as overseeing site-based test bedding, data collection, and
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experience at the time of application; (b) have experience in InSAR applications for landslides and reclamations, PolSAR/PolInSAR for vegetation mapping, finite element analysis, numerical simulation, machine
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/MCCS%201st%20Grant%20Call ). The Research Engineer will focus on hydrodynamic analysis, finite element modeling, and stability assessment for modular floating structures. Responsibilities include
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in the development, validation, and optimization of 3D-printed modular floating structures. This includes conducting hydrodynamic analysis, finite element modeling, and stability assessments, as
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element method, wave propagation analysis, inverse problem, machine learning (ML), and artificial neural network. Strong background in research publications in the desired field. Experience mentoring other
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and knowledgeable in the areas of stress analysis (including the Finite Element Method), material characterisation (particularly flow stress determination and modelling), mechanical testing methods