学术期刊(节选) [1] Zhao, T, Zhang, Z, Tan, Y, Shi, C, Wei, P, Li, Q (2014). An innovative approach to thin coal seam mining of complex geological conditions by pressure regulation. International Journal of Rock Mechanics and Mining Sciences, 71: 249-257. (SCI, 通讯作者) [2] Ma S, Nemcik, J, Aziz N and Zhang Z (2014). Numerical modelling of fully grouted rock bolts reaching free end slip. International Journal of Geomechanics. (SCI, 出版中) [3] Zhang Z, Nemcik J, Ren T and Zhang J (2014). The influence of void space on microscopic behaviour of fluid flow in rock joints. International Journal of Mining Science and Technology, 24: 335-340. (EI) [4] Zhang Z, Nemcik J, Qiao Q, and Geng X (2014). A model for water flow through rock fractures based on friction factor. Rock Mechanics and Rock Engineering. Doi: http://dx.doi.org/10.1007/s00603-014-0562-4. (SCI) [5] Ma S, Nemcik J, Aziz N and Zhang Z (2014). Analytical model for rock bolts of limited bond length. Construction and Building Materials, 57: 30-37. (SCI) [6] Zhang Z and Nemcik J (2013). Fluid flow regimes and nonlinear flow characteristics in deformable rock fractures. Journal of Hydrology, 477: 139-151. (SCI [7] Zhang Z and Nemcik J (2013). Friction factor of water flow through rough rock fractures. Rock Mechanics and Rock Engineering, 46 (5): 1125-1134. (SCI) [8] Zhang Z, Nemcik J and Ma S (2013). Micro- and macro-behaviour of fluid flow in rock joints: an experimental study. Hydrogeology Journal, 21 (8): 1717-1729. (SCI) [9] Tan Y, Sun C and Zhang Z (2009). 2D-ball simulations on stiffness influences for coal bump. Journal of Coal Science and Engineering (CHINA). 15 (2): 161-165. 学术会议(节选) [1] Qiao, Q., Nemcik, J., Porter, I., Baafi, E., Zhang, Z, Shan, Z (2014). Development of testing methods of Thin Spray-on Liner shear-bond strength. Rock Engineering and Rock Mechanics: Structures in and on Rock Masses - Proceedings of EUROCK 2014, ISRM European Regional Symposium, pp. 125-130. (EI) [2] Zhang Z, Wang T, Tan Y and Nemcik J (2013). Dynamic response of bolting support roadway under blast loading to pressure relief. In J Zhao and J Li (Eds.), Rock dynamics and applications – state of the art, 1st International Conference on Rock Dynamics and Applications, Switzerland. CRC Press, pp. 559-565. (EI) [3] Zhang Z, Indraratna B, Kumara C, Nemcik J and Gale W (2012). Effects of normal stress on water flow through a single rough-walled rock joint. In GA Narsilio, A Arulrajah and J Kodikara (Eds.), Proceedings 11th Australia-New Zealand Conference on Geomechanics: Ground Engineering in a Changing World, Australian Geomechanics Society and the New Zealand Geotechnical Society, pp. 113-118. [4] Wang T, Cao H and Zhang Z (2010). Numerical simulation and field practice of pressure-relief borehole to prevent coal burst in deep-seated roadway. 2010 International Conference on Mine Hazards Prevent and Control. Atlantis Press, pp. 69-75. (EI) [5] Zhang Z, Wang T, Qi Y, Wang R and Wang W (2007). Strain energy density method applications to forecast rock burst and design parameters of pressure relief holes. In B Jing, A Zhou, J Gao and P Gou (Eds.), Progress in Mining Science and Safety Technology, Science Press and Science Press USA Inc. pp. 81-86. (ISTP) |