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Name: |
Professor J Quinta da Fonseca |
Organisation: |
University of Manchester, The |
Department: |
Materials |
Current EPSRC-Supported Research
Topics: |
Continuum Mechanics
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Design & Testing Technology
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Energy - Nuclear
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Manufacturing Machine & Plant
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Materials Characterisation
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Materials Processing
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Current EPSRC Support |
EP/T024992/1 | Doing More With Less: A Digital Twin of state-of-the-art and emerging high value manufacturing routes for high integrity titanium alloy components | (C) |
EP/R010269/1 | Multi-scAle INTegrity assessment for Advanced high-temperature Nuclear systems | (P) |
EP/R009392/1 | Understanding the mechanisms controlling low potential stress corrosion cracking in nuclear reactors | (C) |
EP/R001715/1 | LightForm: Embedding Materials Engineering in Manufacturing with Light Alloys | (P) |
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Previous EPSRC Support |
EP/M018369/1 | From Processing to Simulated In-Reactor Performance of Zr Cladding. | (C) |
EP/M000737/1 | Dislocation-Microstructure Interaction at a Crack Tip - In Search of a Driving Force for Short Crack Growth | (C) |
EP/M005607/1 | Strategic Partnership in Structural Metallic Systems for Gas Turbines | (C) |
EP/I012346/1 | Irradiation Effects on Flow Localisation in Zirconium Alloys | (C) |
EP/I003290/1 | Performance and Reliability of Metallic Materials for Nuclear Fission Power Generation | (C) |
EP/H020047/1 | LIGHT ALLOYS TOWARDS ENVIRONMETALLY SUSTAINABLE TRANSPORT: 2nd GENERATION SOLUTIONS FOR ADVANCED METALLIC SYSTEMS (LATEST2) | (C) |
EP/F020910/1 | Strain mapping of individual grains using diffraction contrast tomography | (C) |
EP/E020933/1 | A fundamental study of deformation mechanisms in advanced polycrystalline nickel-base superalloys | (C) |
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Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator
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