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个人简介

Dr. Xia Li is a lecturer in the department of chemical and environmental engineering at the University of Nottingham. Her research focuses on micromechanics and engineering application of granular materials. It is a multi-disciplinary subject and her research activities are jointly supported by the mechanics, materials and structure research division as well as the process and environmental research division within the Faculty of Engineering. After completing her degree in Hydraulic and Hydro-power engineering at Tsinghua University, Dr Li studied for a PhD in granular mechanics with the title "Micro-scale investigation on the quasi-static behavior of granular material" in the Department of Civil Engineering at the Hong Kong University of Science and Technology. She has been awarded miscellaneous scholarship during her study at Tsinghua University and the 2003 Association of Geotechnical & Geoenvironmental Specialists (Hong Kong). After graduation in 2006, she worked as a research fellow in the Hong Kong University of Science and Technology and then joined the University of Nottingham in July, 2007. She received the Nottingham Advance Research Fellowship in 2010, and commenced a lectureship in the Department of Chemical and Environmental Engineering since January 2011.

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YU, H. S., YANG, L. T., LI, X. and WANATOWSKI, D., 2016. Experimental investigation on the deformation characteristics of granular materials under drained rotational shear: Geomechanics and Geoengineering Geomechanics and Geoengineering. 11(1), 47-63 YUAN, Q., WANG, Y. H., TAM, P. O., LI, X. and GAO, Y., 2016. Making a biaxial testing system with the aid of 3D printing technique to examine the kinetic behavior of particulate media: Geotechnical Testing Journal Geotechnical Testing Journal. 39(2), 264-281 LI, X., YANG, D. and YU, H. S., 2016. Macro deformation and micro structure of 3D granular assemblies subjected to rotation of principal stress axes: Granular Matter Granular Matter. 18(3), ROULLIER, B. D., LANGSTON, P. A. and LI, X., 2015. Effects of joint geometry on the modelled material strengths of rock masses in the distinct element method At: Cambridge CHEN, L. M., YANG, X. G., LI, X., LI, G. and SNAPE, C., 2015. Prediction of formation of gas-phase bubbles correlated by vortices in the fuel reactor of chemical looping combustion: Fuel Processing Technology Fuel Processing Technology. 130, 235-244 WANG, J. P., LI, X. and YU, H. S., 2015. A micromechanical interpretation of the capillary effect of unsaturated granular material in a pendular state YANG, D. S., LI, X. and YU, H. S., 2015. Fabric evolution of 3D granular materials in rotational shear JAKUBCZYK, A., LI, X. and YU, H. S., 2015. Theoretical and experimental investigation into unsaturated soil constitutive relationship – Preliminary studies YANG, L. T., LI, X., YU, H. S. and WANATOWSKI, D., 2015. A laboratory study of anisotropic geomaterials incorporating recent micromechanical understanding: Acta Geotechnica Acta Geotechnica. 1-19 LI, X. and YU, H. S., 2014. Fabric, force and strength anisotropies in granular materials: A micromechanical insight: Acta Mechanica Acta Mechanica. 225(8), 2345-2362 LI, X. and YU, H.-S., 2013. On the stress-force-fabric relationship for granular materials International Journal of Solids and Structures. 50(9), 1285-1302 LI, X., YU, H.-S. and LI, X.S., 2013. A virtual experiment technique on the elementary behaviour of granular materials with DEM International Journal for Numerical and Analytical Methods in Geomechanics. 37(1), 75-96 XIA LI, HAI-SUI YU, 2013. Particle scale insight into deformation non-coaxiality of granular materials International Journal of Geomechanics. CAI, Y., YU, H.-S, WANATOWSKI, D. and LI, X., 2012. Non-coaxial behaviour of sand under various stress paths Journal of Geotechnical and Geoenvironmental Engineering. (In Press.) LI, X. and YU, H.-S., 2011. Tensorial characterisation of direction data in micromechanics International Journal of Solids and Structures. 48(14-15), 2167-2176 LI, X. and YU, H.-S., 2011. Applicability of stress-force-fabric relationship for non-proportional loading Computers and Structures. 89(11-12), 1094-1102 LI, X. and YU, H.-S., 2010. Numerical investigation of granular material behaviour under rotational shear Géotechnique. 60(5), 381–394 LI, X. and LI, X.-S., 2009. Micro–macro quantification of the internal structure of granular materials Journal of Engineering Mechanics. 135(7), 641-656 LI, X., YU, H.S. and LI, X.S., 2009. Macro-micro relations in granular mechanics International Journal of Solids and Structures. 46(25-26), 4331-4341 LI, X. and YU, H.-S., 2009. Influence of loading direction on the behavior of anisotropic granular materials International Journal of Engineering Science. 47(11-12), 1284-1296 DONG SU, XIA LI and XIANG-SONG LI, 2006. Numerical study on lateral soil-pile interaction by particle flow code Journal of Shenzhen University of Science and Engineering. 23(1), 42-47

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