Civil Engineering: Fully Funded EPSRC CASE PhD at Swansea: Concrete rheology
- Full cost of UK/EU tuition fees, plus a stipend
- 31 January 2019
Civil Engineering: Fully Funded EPSRC CASE PhD: Numerical modelling of concrete rheology in deep foundation construction
This scholarship is funded by EPSRC and ARUP Ltd.
Start date: October 2019
Over the past decade, the rapid development of concrete admixtures and their increasing use in ready mix concrete has fundamentally changed the design of tremie concrete. Improvements have been made to concrete workability during placement, stability during setting and long durability. Costs savings have been made by reducing the cement content. However, the dependence on powerful chemicals makes the rheology of concrete ever more sensitive to its composition, mixing and workmanship. This has resulted in many construction problems on site. The mismatch between tremie concrete mix design, foundation design and the associated deep foundation practice raises a paramount challenge to the civil engineering and construction industries.
To address these critical issues, the European Federation of Foundation Contractors (EFFC) and the US Deep Foundation Institute (DFI) jointly released in June 2018 the EFFC/DFI Guide to Tremie Concrete for Deep Foundations. Arup was an active member of the EFFC/DFI Task Group and made major contributions to the delivery of the Guide.
This CASE PhD research project will build on the initial numerical modelling undertaken for the EFFC/DFI Tremie Concrete Guide, which left unanswered questions, to include the interface layer and interaction with the support fluid. It will input into the upgrading of specifications for reinforcement spacing, laps, and cover requirements. It will help to develop concrete mix designs that are more resistant to bleed and support fluids that are more stable.
Project supervisors: Professor Chenfeng Li
Available resources/facilities: High performance computing and state-of-the-art concrete lab facilities
Candidates should have, or be expected to gain, a first or upper second class honours degree (or its equivalent) in civil engineering or a relevant discipline (structural mechanics, solid mechanics, fluid mechanics, finite element, computational fluid dynamics). A master's degree is an advantage.
We would normally expect the academic and English Language requirements to be met by point of application. For details on the University’s English Language entry requirements, please visit the website.
Due to funding restrictions, this scholarship is open to UK/EU candidates only.
The TOEFL® test is a popular option for students to meet the English-language requirements for scholarships.
This scholarship covers the full cost of UK/EU tuition fees and an annual stipend of £15,009.
There will also be additional funds available for research expenses.
Please visit our website for more information.
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