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Dr Hector Basoalto graduated with a BEng (First class with Honours) in Materials Science and Engineering at Queen Mary College, University of London in 1992. He went on to do post graduate studies at Queen Mary College focusing on the application of weight function methods to crack shielding problems in fracture mechanics, and was a warded a PhD in 1996. In 1997 he joined the Materials Department at Imperial College and joined Professor M McLean’s group. There he worked crystal plasticity modelling of the high temperature creep behaviour of single crystal nickel-based superalloys. During this time, through collaboration with Professor B F Dyson, his research expanded to study formulation of microstructure-explicit constitutive equations for precipitate strengthened alloy systems. In 2004 he joined the Air Division at QinetiQ, Farnborough. As a senior scientist, Dr Hector Basoalto worked on a range of TSB and MoD funded programmes and includes: modelling damage evolution in thermal barrier coatings, creep and fatigue behaviour of nickel-based superalloys, 3D crack propagation in complex engineering components. In 2009, he was made Team Leader of the Engine Materials and Component Lifing group. In 2009, joined the Advanced Forming Research centre (AFRC), University of Strathclyde. As Deputy Technical Director, Dr Hector Basoalto was responsible for the strategic direction of the core research programme and was technical lead of a number of research projects on: residual stress control, microstructure characterisation, constitutive materials modelling, forging and forming. He regularly interacted with member companies such as Boeing, Rolls-Royce, TIMET, Mettis Aerospace and Aubert&Duvall in core projects as well as direct funded research activities. In 2012, Dr Hector Basoalto joined the School of Metallurgy and Materials, were he is currently Technical Director of the Partnership for Research in Simulation of Manufacture and Materials (PRISM2).

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Z. Zhu, H. Basoalto, N. Warnken, R.C. Reed, A Model For The Creep Deformation Behaviour Of Nickel-Based Single Crystal Superalloys, Volume 60, Issue 12, July 2012, Pages 4888–4900. Coakley, J., Dye, D. and Basoalto, H.C, Creep and creep modelling of a multimodal nickel-base superalloy, Acta Materialia 59 (2011) 854–863. Coakley, J., Basoalto, H.C, and Dye, D., Coarsening of a Multi-Modal Nickel-Base Superalloy, Acta Materialia, Acta Materialia 58 (2010) 4019. Brooks, J.W., Basoalto, H.C., Sahota, R., and Tranter, P., Probabilistic Property Prediction Of Aero-Engine Components For Fatigue, Vol 6: Structures and Dynamics, Parts A and B, ASME Conference Proceedings, 2010. Basoalto, H.C., J.W. Brooks and Di Martino, I., Multi-Scale Microstructure Modelling for Nickel-Based Superalloys, Journal Materials Science and Technology , 2009. Basoalto, H.C., Vermeulen, B., Brooks, J.W., Coventry, G., Williams, S., Mason-Flucke, J., and Bagnall, S, A New Hyperbolic Tangent Modelling Approach for Creep of the Single Crystal Nickel-Based Superalloy CMSX4, in Superalloys 2008, Ed. R. Reed et al. 2008. Basoalto, H.C, Sondhi, S.K., Dyson, B.F., and McLean, A Generic Microstructure-Explicit Model of Creep in Nickel-Based Superalloys, in Superalloys 2004, eds. Pollock, T.M. et al., p. 897-906, 2004.

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