Jackson, Martin - University of Sheffield - Department of Materials Science and Engineering

个人简介

Department of Materials Science and Engineering, Sir Robert Hadfield Building, Mappin Street, Sheffield, S1 3JD After obtaining an M.Eng (First) from The University of Sheffield, Martin Jackson initially followed an aerospace materials career working for Rolls-Royce before studying for his PhD at Imperial College London – "predicting microstructural evolution during forging of Ti alloys (EPSRC/QinetiQ)". Between 2001 and 2005 he worked as a Research Associate at Imperial on projects such as "high strain rate superplasticity in Al alloys (EPSRC)" and "the production of Ti Alloys via the FFC Cambridge process (ONR/DARPA)". In 2005 he was awarded a Royal Academy of Engineering/EPSRC Research Fellowship and moved back to the department in 2008. Martin was appointed to Senior Lecturer in 2011 and is the UK representative on the World Titanium Committee.

研究领域

Martin's research centres on the effect of solid state processes from upstream extraction technologies through to downstream finishing processes on microstructural evolution and mechanical properties in light alloys, and in particular titanium alloys. A major research interest is to provide a step change in the economics of titanium based alloys through the development of non-melt consolidation routes such as the FFC Process, FAST-Forge and continuous rotary extrusion. Key projects: Novel non-melt consolidation methods for Ti powder and Ni superalloy powders Recycling of Ti swarf and production of low cost wire feedstocks for additive manufacturing Hot forging and near net shape FAST-forging of aerospace Ti and Ni alloys and emerging automotive alloys High performance machining of aerospace Ti alloys and development of small-scale processes to assess machinability and tool wear The role of surface conditioning on fatigue life, residual stress and crack initiation in Ti alloys Solid state modeling (DEFORM) and thermodynamical modeling (Thermo-Calc DICTRA) of titanium alloy solid state processing

近期论文

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L.L. Benson, I. Mellor, M. Jackson, Direct reduction of synthetic rutile using the FFC process to produce low-cost novel titanium alloys, Journal of Materials Science (2016) 51:4250–4261 N.S. Weston, F. Derguti, A. Tudball, M. Jackson, Spark plasma sintering of commercial and development titanium alloy powders, Journal of Materials Science (2015) 50:pp. 4860–4878 P. Crawforth, B. Wynne, S. Turner, M. Jackson, The effect of turning on microstructural damage in titanium alloys, Scripta Materialia 67 (2012) pp. 842-845 M. Thomas, T.C Lindley, D. Rugg, M. Jackson, The effect of shot peening on the microstructure and properties of a near-alpha titanium alloy following high temperature exposure, Acta Materialia 60 (13-14) (2012) 5040-5048. M. Thomas, M. Jackson, The role of temperature and alloy chemistry on subsurface deformation mode during shot peening of titanium alloys, Scripta Materialia 66 (2012) 1065-1068 M. Thomas, S. Turner, M. Jackson, Microstructural damage during high-speed milling of titanium alloys, Scripta Materialia 62 (2010) 250-253. M. Thomas, T.C Lindley, M. Jackson, The microstructural response of a peened near-alpha titanium alloy to thermal exposure, Scripta Materialia 60 (2009) 108–111. R. Bhagat, M. Jackson, D. Inman and R. Dashwood, The Production of Ti-W Alloys from Mixed Oxide Precursors via the FFC Cambridge Process, J Electrochem Soc, 155 (2009) Vol. 156, E1 – E7. N.G Jones, R. Dashwood, D. Dye, M. Jackson, Thermomechanical Processing of Ti-5Al-5Mo-5V-3Cr, Materials Science & Engineering A, 490 (2008) 369-377. M. Jackson, K. Dring, Materials perspective - a review of advances in processing and metallurgy of titanium alloys, Materials Science and Technology. 22 (2006) 881-887. M. Jackson, R.J. Dashwood, L. Christodoulou and H.M. Flower, The microstructural evolution of near beta alloy Ti-10V-2Fe-3Al during subtransus forging, Materials Transactions A, 36A (2005) 1317-27.