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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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Discipline. Previous experience / requirements: Finite element modelling, Fracture mechanics View DetailsEmail EnquiryApply Online
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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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: Applications accepted all year round Details In analyses of failure in composite laminates, extended finite element analyses using Abaqus (or Ansys) might prove convenient for the prediction of transversal
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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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aims to explore the computational solution (e.g. using Ansys/Abaqus/MATLAB or any other convenient finite element software) -at different strain rates- of: (1) impact on cross-ply composite laminates. (2
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) or MSc (Merit or Distinction) in a relevant science or engineering subject from a reputable institution. Potential candidates should have fundamental knowledge in solid mechanics and finite element
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Steel. Funding Notes 1st or 2:1 degree in Engineering, Materials Science, Physics, Chemistry, Applied Mathematics, or other Relevant Discipline. Previous experience / requirements: Finite element
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accepted all year round Details The advent of easily accessible high performance computers or computer clusters and numerical techniques such as finite element methods (FEM) facilitates the highly accurate
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microscopy (SEM), to identify typical bearing failure modes and to interpret their root causes. Finite Element modelling of bearing raceway and ball contacts will be developed to investigate contact pressure