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Faculty
Xiusong SHI (石修松) PhD , Technische Universitat Dresden, Germany

Research Assistant Professor

Email: xiusongshi@ust.hk
Homepage: https://facultyprofiles.ust.hk/profiles.php?profile=xiusong-shi-xiusongshi

Biography

Dr. Shi obtained his Ph.D. from Technische Universität Dresden, Germany, in June 2016. He was a recipient of the prestigeous Ioannis Vardoulakis Prize (2017) which was awarded by the association ALERT Geomaterials (The Alliance of Laboratories in Europe for Education, Research and Technology).
RESEARCH INTERESTS:

1. Laboratory investigation of inhomogeneous soils (lumpy soils, gap-graded soils)

2. Constitutive modeling of lumpy soils

3. Mechanical behaviour and modeling of structured soils

4. Consolidation analysis of multi-porosity geomaterials and gap-graded soils

5. Mechanical behaviour and constitutive modeling of rock-soil mixtures

SELECTED PUBLICATIONS

1.    X. S. Shi*(Corresponding author), I. Herle and D. Muir Wood. A consolidation model for lumpy composite soils in open-pit mining. Géotechnique. 68 (3): 189-204, 2018.

2.    X. S. Shi*(Corresponding author) and J. H. Yin. Consolidation behaviour for saturated sand-marine clay mixtures considering the inter-granular structure evolution, Journal of Engineering Mechanics, ASCE. 144(2), 2018.

3.    X. S. Shi*(Corresponding author) and J. H. Yin. Estimation of the permeability of saturated sand-marine clay mixtures using a homogenization approach, International Journal of Geomechanics, ASCE. 18(7), 04018082, 2018

4.    X. S. Shi*(Corresponding author) and I. Herle. A model for natural lumpy composite soils and its verification. International Journal of Solids and Structures, 121, 240-256, 2017.

5.    X. S. Shi*(Corresponding author) and J.H. Yin. Experimental and theoretical investigation on the compression behaviour of sand-marine clay mixtures within homogenization framework. Computers and Geotechnics, 90, 14-26, 2017.

6.    X. S. Shi*(Corresponding author) and I. Herle. Numerical simulation of lumpy soils using a hypoplastic model. Acta Geotechnica, 11, 349-363, 2017.

7.    X. S. Shi*(Corresponding author), I. Herle and K. Bergholz. A nonlinear Hvorslev surface for highly overconsolidated soils: elastoplastic and hypoplastic implementations. Acta Geotechnica, 11: 809-823, 2016.

8.    X. S. Shi*(Corresponding author) and I. Herle. Modeling the compression behaviour of remolded clay mixtures. Computers and Geotechnics, 80: 215-225, 2016.

9.    X. S. Shi*(Corresponding author) and I. Herle. Analysis of the compression behaviour of artificial lumpy composite materials. International Journal for Numerical and Analytical Methods in Geomechanics, 40, 1438-1453, 2016.

10.  X. S. Shi*(Corresponding author) and I. Herle. Structure transition of lumpy landfills with increasing stress level. Quarterly Journal of Engineering Geology and Hydrogeology, 49, 336-343, 2016.

11.  X. S. Shi*(Corresponding author) and I. Herle. Compression and undrained shear strength of remolded clay mixtures. Géotechnique Letters, 5: 62-67, 2015.

12.  X. S. Shi*(Corresponding author) and I. Herle. Laboratory investigation of artificial lumpy materials. Engineering Geology, 183: 303-314, 2014.

 

 
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