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Researcher Details
 
Name: Professor SG Roberts
Organisation: University of Oxford
Department: Materials
Current EPSRC-Supported Research Topics:

Current EPSRC Support
There is no current EPSRC Support
Previous EPSRC Support
EP/P001645/1 Advanced Nuclear Materials(P)
EP/K039237/2 Ceramic Coatings for Clad (The C^3 Project): Advanced Accident-Tolerant Ceramic Coatings for Zr-alloy Cladding(C)
EP/N017110/1 SiC fuel cladding: Macroscopic effects of radiation on mechanical and thermal properties from microstructural-scale characterisation and modelling(C)
EP/L025817/1 US DOE IRP on Simulation of Neutron Irradiation(P)
EP/L01663X/1 EPSRC Centre for Doctoral Training in the Science and Technology of Fusion Energy(C)
EP/K039237/1 Ceramic Coatings for Clad (The C^3 Project): Advanced Accident-Tolerant Ceramic Coatings for Zr-alloy Cladding(C)
EP/K504178/1 Fusion Doctoral Training Network(C)
EP/I003274/1 Performance and Reliability of Metallic Materials for Nuclear Fission Power Generation(C)
EP/H018921/1 Materials for fusion & fission power(P)
EP/G004676/1 Micromechanical Modelling and Experimentation(C)
EP/F004451/1 Ion irradiations of fusion reactor materials(P)
EP/E040608/1 Development of Bulk Nanostructured Aluminium Alloys for High Strength Applications(C)
EP/C509870/1 Microplasticity and Fatigue Crack Initiation(C)
GR/S81155/01 Predictive Modelling of Mechanical Properties of Materials for Fusion Power Plants(P)
GR/S34045/01 Multi-scale modelling and simulations of cleavage fracture in steels(C)
GR/N06601/01 GRAIN BOUNDARY STRENGTHENING AND SURFACE MECHANICAL PROPERTIES OF SINTERABLE ALUMINA MATRIX NANOCOMPOSITES(P)
GR/M05188/01 CARBIDE CRACKING AND DUCTILE-BRITTLE TRANSITIONS IN FERRITIC STEELS(P)
GR/L95908/01 STRENGTHENING MECHANISMS IN OXIDE CERAMIC NANOCOMPOSITES(P)
GR/L83400/01 CHARACTERISATION OF CERAMIC COATINGS AND COATED GLASSES BY INDENTATION(C)
GR/L27633/01 QUANTITATIVE NDT OF SURFACE DAMAGE IN GLASS AND CERAMICS(P)
GR/K82451/01 QUANTITATIVE NDT OF SURFACE DAMAGE IN GLASS CERAMICS.(P)
GR/J86513/01 SURFACE DAMAGE WEAR MECHANISMS AND IMPROVED WEAR RESISTANCE IN ALUMINA CERAMICS(C)
GR/J77542/01 FRACTURE, STRENGTH AND DAMAGE TOLERANCE OF CERAMIC NANOCOMPOSITES(P)
GR/J36815/01 FATIGUE CRACK GROWTH IN NI-BASED SUPERALLOY SINGLE CRYSTALS: MECHANISMS AND MODELLING(C)
GR/J08485/01 CHARACTERISATION OF SURFACE ROUGHNESS AND SUB-SURFACE DAMAGE(C)
GR/J36792/01 EQUIPMENT FOR MATERIALS CHARACTERISATION AT THE NANOMETRE SCALE: ADVANCED INDENTATION TESTING(C)
GR/J02049/01 PREDICTING STABLE CRACK GROWTH AND THE BRITTLE-DUCTILE TRANSITION IN SEMI-BRITTLE MATERIALS(P)
GR/J02353/01 DEVELOPMENT AND APPLICATION OF STRAIN, ORIENTATION AND ATOMIC NUMBER SENSITIVE BSE SEM TECHNIQUES(C)
GR/J02322/01 MECHANISMS FOR STRENGTH ENHANCEMENT IN CERAMIC NANOCOMPOSITES(C)
GR/H58278/01 COMPUTATIONAL STUDIES IN MATERIALS SCIENCE(C)
GR/H33978/01 DUCTILITY & BRITTLENESS OF INTERMETALLICS FOR HIGH TEMP APPS - ESTABLISHMENT OF CRYSTAL GROWTH FACILITY(C)
GR/G42853/01 THE BRITTLE-DUCTILE TRANSITION IN ALUMINA: APPLICABILITY OF THE WARM-PRESTRESSING EFFECT(P)
GR/F78545/01 MECHANICAL PROPERTIES OF TITANIUM ALUMINIDES(C)
GR/F27260/01 UNDERSTANDING & MODIFYING THE BRITTLE DUCTILE TRANSITION IN CERAMIC MATERIALS(P)
GR/E77527/01 SEM IMAGING OF DISLOCATIONS(C)
GR/E28758/01 MECHANICAL PROPERTIES AND FORCES AT INTERFACES AND IN NANOMETRE STRUCTURES(C)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator