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Researcher Details
 
Name: Professor D Hills
Organisation: University of Oxford
Department: Engineering Science
Current EPSRC-Supported Research Topics:

Current EPSRC Support
There is no current EPSRC Support
Previous EPSRC Support
EP/S005072/1 Strategic Partnership in Computational Science for Advanced Simulation and Modelling of Engineering Systems - ASiMoV(C)
EP/R004951/1 Cornerstone: Mechanical Engineering Science to Enable Aero Propulsion Futures(C)
EP/E058337/1 A Predictive Approach to Modelling Frictional Joint Performance (PAMFJP)(C)
EP/E016111/1 Contact evolution based fretting fatigue prediction(P)
EP/C509870/1 Microplasticity and Fatigue Crack Initiation(C)
EP/C510232/1 Vortex Induced Vibration And Fatigue Of Deep Water Flexible Riser Pipes(C)
GR/T10541/01 Reliable Measurement of Residual Stress in Large Engineering Components(P)
GR/N11049/01 ENHANCED LIFE PREDICTION FOR THREE-DIMENSIONAL FATIGUE CRACKS(C)
GR/M57163/01 NEW DESIGN METHODS FOR FATIGUE-CREEP & PLASTIC COLLAPSE(P)
GR/L90217/01 JREI:ENHANCEMENT OF FRETTING FATIGUE TEST FACILITIES(C)
GR/L83400/01 CHARACTERISATION OF CERAMIC COATINGS AND COATED GLASSES BY INDENTATION(C)
GR/K75507/01 SURFACE ENGINEERING - MEASUREMENT OF RESIDUAL STRESS BY CRACK COMPLIANCE TECHNIQUES(P)
GR/L19942/01 SURFACE ENGINEERING - MEASUREMENT OF RESIDUAL STRESS BY CRACK COMPLIANCE TECHNIQUES(C)
GR/K65843/01 DETERMINATION OF RESIDUAL STRESSES IN TOUGHENED GLASS BY INDENTATION TESTING(P)
GR/J53942/01 CRACK SHAPE AND SEVERITY ASSESSMENT FOR SURFACE TREATED COMPONENTS; AN NDT TOOL(P)
GR/G57536/01 AN INVESTIGATION OF CRACK INITIATION AND SELF ARREST IN FRETTING FATIGUE(C)
GR/G04042/01 APPLICATION OF APPLIED MECHANICS TO THE DESIGN OF DIFFUSION BONDED JOINTS(P)
GR/E76742/01 BEHAVIOUR OF DIFFUSION BONDED JOINTS BETWEEN CERAMIC AND METAL(C)
Key: (P)=Principal Investigator, (C)=Co-Investigator, (R)=Researcher Co-Investigator