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Simulating Composite Fracture by the Extended Finite Element Method School of Mechanical, Aerospace and Civil Engineering PhD Research Project Self Funded Dr J L Curiel Sosa Application Deadline
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of custom written codes and the use of commercial finite element software and user subroutines that will deliver novel solutions for virtual manufacturing methods. The appointment will be at Research
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to the scoping, delivering and reporting of research projects, as well as engineering tasks such as programming for modelling development, implementing numerical techniques such as the Finite Element Method, and
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. These models will incorporate: Analytical approximations for complex biological systems Finite-element methods for solving partial differential equations Stress-strain balance calculations Mass-transfer
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to the success of the project. Furthermore, the role will give you the opportunity to use your experience in formulating problems using the finite element method in solid and fluid mechanics, to validate
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authoritative practical knowledge and experience in acoustics and/or vibration, supported by detailed understanding. Basic understanding and knowledge of numerical modelling using the Finite Element Method
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knowledge of numerical modelling using the Finite Element Method/Boundary Element Method. Excellent communication and teamwork skills. Informal enquiries can be made to Dr Felix Langfeldt: F.Langfeldt
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mathematics, with proven research contributions in finite element methods, boundary element methods, numerical methods for partial differential equations (PDEs) with uncertainties, and related areas
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meeting these needs, this PhD project will involve the research and development of new computational technologies, based on the boundary element and finite element methods, in a high-performance computing
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moving through different fluids. In this project, we are interested in developing moving mesh finite element methods for their dynamical simulation. We aim to produce efficient, accurate and robust