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for the experimental work to inform the development of the models. Simulation techniques based on the Cellular Automata Finite Element (CAFE) model pioneered in the Department will be explored. Funding Notes 1st or 2:1
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, or other Relevant Discipline. Previous experience / requirements: Finite element modelling, experimental solid mechanics View DetailsEmail EnquiryApply Online
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finite element modelling to simulate the deformation of microstructures, novel crack propagation simulation techniques and scale-transition algorithms. The model will be informed and validated using full
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techniques to develop a predictive Finite Element model of chip formation and machining induced damage in machining of AM build parts. This will also include an investigation into the machinability of the AM
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This projects builds on another recent project to model human hand interactions with packaging. The use of finite element techniques will be used to further develop a human hand model with key features to show
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in and like coding. In this project, Julia and C++ will be utilized. • You have experience in and like implementing Finite Element routines. • You have very good English language skills
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/ requirements: Experimental methods, Finite element modelling, computer programming, Manufacturing Please contact Dr Hassan Ghadbeigi (h.ghadbeigi@sheffield.ac.uk) for more details. Funding Notes This project
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factors that accelerate material deterioration (e.g., hydrogen embrittlement, corrosion). The primary tasks include developing advanced multiphysics frameworks (finite element/phase-field methods
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(including finite element simulations, and theory), and the development of a high-speed circuit to quantify fiber alignment in composites in real time. To develop this technique, a successful applicant will
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-circuit design, finite-element simulation, clean-room fabrication, and on-wafer test and measurement. Ma, X., Orloff, N. D., Little, C. A., Long, C. J., Hanemann, I. E., Liu, S., ... & Hwang, J. C. (2018