General

Peng-Zhi Pan

PhD, Professor

Institute of Rock and Soil Mechanics, Chinese Academy of Sciences

No. 2 Xiaohongshan, Wuchang, Wuhan 430071, P. R. China

Tel: (86)27-87198805

Mobile: (86)13971102586

Email: pzpan@whrsm.ac.cn

Website: www.whrsm.ac.cn

               www.casrock.cn


Biography and Research Areas

Biography

I am currently a Professor in the Institute of Rock and Soil Mechanics (IRSM), Chinese Academy of Sciences (CAS). I was born and grew up in Yongchun, Fujian Province in South China. I received BEng in Engineering Mechanics in 2000 and MEng in Solid Mechanics in 2003, respectively, from Wuhan University of Technology. In 2003, I moved to the Institute of Rock and Soil Mechanics (IRSM), Chinese Academy of Sciences (CAS), where I received PhD in Geotechnical Engineering in 2006, under the supervision of Prof. Xia-Ting Feng. I became an Assistant Professor in 2006, and was promoted as an Associate Professor in 2009 and a Professor in 2013 at IRSM, CAS. In 20112013, I worked with Dr. Jonny Rutqvist at Lawrence Berkeley National Laboratory (LBNL) as a Visiting Scholar in the modeling of coupled thermalhydraulicmechanicalchemical (THMC) processes in geological media.

My research interests are currently focused on rock fracture mechanics and continuum-discontinuum numerical methods to simulate rock nonlinear fracturing process with and without consideration of coupled THMC processes in geological media. These included a series of rock fracture experiments with a combination of digital image correlation (DIC) and acoustic emission (AE) techniques to understand the nonlinear fracturing mechanism of rocks. I developed a series of novel numerical methods and comprehensive successive numerical codes (e.g. EPCA2D, EPCA3D, RDCA, TOUGH-RDCA, which are incorporated into CASRock (www.casrock.cn)) based on multidisciplinary of cellular automaton, elasto-plastic theory, fracture mechanics, rock mechanics, partition of unity, level set method and fluid mechanics, thermodynamics, etc. I enjoyed using the self-developed codes to a wide range of geoscientific and geoengineering applications, including the stability analysis of subsurface rock engineering, geological disposal of high-level nuclear waste and geological sequestration of CO2, coal mining, etc., to understand the underlying failure mechanism and coupling process in complex geological systems.


Research Areas

  1. Continuum-discontinuum numerical methods on rock fracturing process
  2. Experimental study on rock fracture mechanics based on optic and acoustic techniques
  3. Coupled thermo-hydro-mechanical-chemical processes in fractured geological media
  4. Numerical evaluation on rockburst risk in mining and tunneling

Education

  1. 09/2003~06/2006 PhD in Geotechnical Engineering. Institute of Rock and Soil Mechanics, Chinese Academy of Sciences. Supervisor: Professor Xia-Ting Feng. Thesis Title: Numerical study on rock fracturing process and coupled hydro-mechanical effect using an Elasto-Plastic Cellular Automaton (in Chinese).

  2. 09/2000~06/2003 MEng in Solid Mechanics. Wuhan University of Technology. Supervisor: Professor Shilin Yan. Thesis Title: The damage model of jointed rock mass equivalent behavior and numerical simulation (in Chinese).     

  3. 09/1996~06/2000 BEng in Engineering Mechanics. Wuhan University of Technology.     


Experience

  1. 12/2013~present, Professor, Institute of Rock and Soil Mechanics, Chinese Academy of Sciences

  2. 01/2009~12/2013, Associate Professor, Institute of Rock and Soil Mechanics, Chinese Academy of Sciences

  3. 04/2011~06/2013, Visiting Professor, Lawrence Berkeley National Laboratory, USA

  4. 07/2006~12/2008, Assistant Professor, Institute of Rock and Soil Mechanics, Chinese Academy of Sciences 


Honors & Distinctions

  1. ​First prize of science and technology progress of Chinese Society for Rock Mechanics and Engineering (second contributor), 2021

  2. Qianqi Hu award from Chinese Society for Rock Mechanics and Engineering, 2020

  3. First prize of science and technology progress from Hubei Province (second contributor), 2019

  4. Excellent Young Scientist of Wuhan, 2016

  5. First prize in Natural Science of Chinese Society for Rock Mechanics and Engineering (first contributor), 2014

  6. Outstanding Member of Youth Innovation Promotion Association, Chinese Academy of Sciences, 2015

  7. Lu Jiaxi Young Talent Award of Chinese Academy of Sciences, 2010

  8. Excellent Doctoral Dissertation of Hubei Province, 2007


Publications

Journal Papers (* means corresponding author)

  1. Miao, S., P.-Z. Pan*, W. Hou, M. Li* and Z. Wu (2022). "Determination of mode I fracture toughness of rocks with field fitting and J-integral methods." Theoretical and Applied Fracture Mechanics 118, 103263
  2. Miao, S.T., P.Z. Pan*, P.Y. Yu, and W.B. Hou (2022). "Fracture Behaviour of Two Microstructurally Different Rocks Exposed to High Static Stress and Cyclic Disturbances." Rock Mechanics and Rock Engineering  55(6), 3621-3644.
  3. Mei, W., Y. Xia*, P.-Z. Pan*, M. Li, S. Tan and Y. Zhang (2022). "Transient responses of deep-buried unlined tunnels subjected to blasting P wave." Computers and Geotechnics 146, 104729
  4. Zhu, G.-Q., X.-T. Feng, P.-Z. Pan, Y.-Y. Zhou, C.-X. Yang, Z.-W. Li and Y. Taiwakuli (2022). "Real-time monitoring of the development of brittle fracture in hard rock tunnels based on physical model test." Tunnelling and Underground Space Technology 119, 104240
  5. Chen, J., C. Zhu, J. Du, Y. Pu, P. Pan, J. Bai and Q. Qi (2022). "A quantitative pre-warning for coal burst hazardous zones in a deep coal mine based on the spatio-temporal forecast of microseismic events." Process Safety and Environmental Protection 159, 1105-1112
  6. Huang, X., S. Li, D. Xu, and P. Pan (2022). "Time-Dependent Behavior of Jinping Deep Marble Taking into Account the Coupling Between Excavation Damage and High Pore Pressure." Rock Mechanics and Rock Engineering 55, 4893-4912.
  7. Zheng, Z., G.S. Su, Q. Jiang, P.Z. Pan, X.H. Huang, and J.Q. Jiang (2022). "Mechanical behavior and failure mechanisms of cylindrical and prismatic rock specimens under various confining stresses." International Journal of Damage Mechanics 31(6), 864-881.
  8. Feng, D.A.L., X.R. Wang, U. Nackenhorst, X.M. Zhang, and P.Z. Pan (2022). "A comparative study of using two numerical strategies to simulate the biochemical processes in microbially induced calcite precipitation." Journal of Rock Mechanics and Geotechnical Engineering 14(2), 592-602.
  9. Wu, Z. H., P. Z. Pan*, J. Q. Chen, X. D. Liu, S. T. Miao and P. Y. Yu (2021). "Mechanism of Rock Bursts Induced by the Synthetic Action of "Roof Bending and Rock Pillar Prying" in Subvertical Extra-Thick Coal Seams." Frontiers in Earth Science 9, 16
  10. Yan, F., W. Zhang, P.-Z. Pan* and S.-J. Li (2021). "Dynamic crack propagation analysis combined the stable scheme and continuous-discontinuous cellular automaton." Engineering Fracture Mechanics 241, 107390
  11. Miao, S., P.-Z. Pan*, X. Zhao, C. Shao and P. Yu (2021). "Experimental Study on Damage and Fracture Characteristics of Beishan Granite Subjected to High-temperature Treatment with DIC and AE Techniques." Rock Mechanics and Rock Engineering 54(2), 721-743.
  12. Miao, S., P.-Z. Pan*, S. Zhao, J. Han and P. Konicek (2021). "A New DIC-Based Method to Identify the Crack Mechanism and Applications in Fracture Analysis of Red Sandstone Containing a Single Flaw." Rock Mechanics and Rock Engineering 54, 3847-3871.
  13. Miao, S., P.-Z. Pan*, S. Li, J. Chen and P. Konicek (2021). "Quantitative fracture analysis of hard rock containing double infilling flaws with a novel DIC-based method." Engineering Fracture Mechanics 252, 107846.
  14. Miao, S., P.-Z. Pan*, P. Konicek, P. Yu and K. Liu (2021). "Rock damage and fracturing induced by high static stress and slightly dynamic disturbance with acoustic emission and digital image correlation techniques." Journal of Rock Mechanics and Geotechnical Engineering 13(5), 1002-1019.
  15. Lin, Q., X. Bian, P.-Z. Pan*, Y. Gao and Y. Lu (2021). "Criterion of local symmetry visualized in small eccentric single edge notched bend (E-SENB) rock specimens." Engineering Fracture Mechanics 248, 107709.
  16. Mei, W., M. Li, P.-Z. Pan*, J. Pan and K. Liu (2021). "Blasting induced dynamic response analysis in a rock tunnel based on combined inversion of Laplace transform with elasto-plastic cellular automaton." Geophysical Journal International 225, 699-710.
  17. Mei, W., Y. Xia*, G. Han, P.-Z. Pan*, M. Li and Z. Wang (2021). "Theoretical responses of shallow-buried circular cavity subjected to transient P wave." Computers and Geotechnics 139, 104411
  18. Hekmatnejad, A., B. Crespin, P.-Z. Pan, X. Emery, F. Mancilla, M. Morales, M. Seyedrahimi-Niaraq, P. Schachter and R. Gonzalez (2021). "A hybrid approach to predict hang-up frequency in real scale block cave mining at El Teniente mine, Chile." Tunnelling and Underground Space Technology 118, 104160
  19. Feng, X.-T.*, Z. Wang, Y. Zhou, C. Yang, P.-Z. Pan and R. Kong (2021). "Modelling three-dimensional stress-dependent failure of hard rocks." Acta Geotechnica 16(6), 1647-1677.
  20. Lin, Q., S. Wang, P.-Z. Pan*, W.-W. Ji and Y. Lu (2020). "Fracture initiation under pure shear revisited: Remarks on the mode II fracture in quasi-brittle materials." Theoretical and Applied Fracture Mechanics 109, 102700.
  21. Yu, P., P.-Z. Pan*, G. Feng, Z. Wu and S. Zhao (2020). "Physico-mechanical properties of granite after cyclic thermal shock." Journal of Rock Mechanics and Geotechnical Engineering. doi: 10.1016/j.jrmge.2020.03.001.
  22. Lin, Q., S. Wang, P.-Z. Pan*, X. Bian and Y. Lu (2020). "Imaging opening-mode fracture in sandstone under three-point bending: A direct identification of the fracture process zone and traction-free crack based on cohesive zone model." International Journal of Rock Mechanics and Mining Sciences 136, 104516
  23. Yan, F., Q. Jiang*, S.-J. Li, P. Pan, D.-p. Xu, J.-x. Zhang and B. Fan (2020). "A dual singular hybrid boundary node method based on origin singular intensity factor." Engineering Analysis with Boundary Elements 115, 64-71.
  24. Jiang, Q., S. Zhong, P. Z. Pan*, Y. N. Shi, H. G. Guo and Y. Y. Kou (2020). "Observe the temporal evolution of deep tunnel's 3D deformation by 3D laser scanning in the Jinchuan No. 2 Mine." Tunnelling and Underground Space Technology 97.
  25. Pan, P. Z.*, S. T. Miao, Z. H. Wu, X. T. Feng and C. Y. Shao (2020). "Laboratory Observation of Spalling Process Induced by Tangential Stress Concentration in Hard Rock Tunnel." International Journal of Geomechanics 20(3).
  26. Miao, S. T., P. Z. Pan*, P. Y. Yu, S. K. Zhao and C. Y. Shao (2020). "Fracture analysis of Beishan granite after high-temperature treatment using digital image correlation." Engineering Fracture Mechanics 225.
  27. Li, M., W. Mei, P.-Z. Pan*, F. Yan, Z. Wu and X.-T. Feng (2020). "Modeling transient excavation-induced dynamic responses in rock mass using an elasto-plastic cellular automaton." Tunnelling and Underground Space Technology 96, 103183.
  28. Hu, B., P.-Z. Pan*, W.-W. Ji, S. Miao, D. Zhao and T. Yao (2020). "Study on Probabilistic Damage Constitutive Relation of Rocks Based on Maximum-Entropy Theory." International Journal of Geomechanics 20(2), 06019018.
  29. Liu, Z. H., J. S. Liu, P. Z. Pan, D. Elsworth, M. Y. Wei and R. Shi (2020). "Evolution and analysis of gas sorption-induced coal fracture strain data." Petroleum Science 17, 376-392.
  30. Pan, P.-Z., Z.-H. Wu, F. Yan*, W.-W. Ji, S.-T. Miao and Z. Wang (2020). "Effect of the intermediate principal stress on hydraulic fracturing in granite: an experimental study." Environmental Earth Sciences 79(1).
  31. Pan, P.-Z., S. Miao, Q. Jiang*, Z. Wu and C. Shao (2019). "The Influence of Infilling Conditions on Flaw Surface Relative Displacement Induced Cracking Behavior in Hard Rock." Rock Mechanics and Rock Engineering. doi: 10.1007/s00603-019-02033-x
  32. Hu, B., J. Sheng, J. Li*, P.-Z. Pan*, G. Zhang and Z. Ye (2019). "“Wireline + Wireless” Networking Remote Monitoring Technology for Analysing the Unloading Deformation Characteristics of the Fractured Surrounding Rock Mass Induced by Underground Excavation." Advances in Civil Engineering 2019, 1-10.
  33. Pan, P.-Z., F. Yan, X.-T. Feng, Z. Wu and S. Qiu (2019). "Modeling of an excavation-induced rock fracturing process from continuity to discontinuity." Engineering Analysis with Boundary Elements 106, 286-299.
  34. Asahina, D., P.-Z. Pan, M. Sato, M. Takeda and M. Takahashi (2019). "Hydraulic and Mechanical Responses of Porous Sandstone During Pore Pressure-Induced Reactivation of Fracture Planes: An Experimental Study." Rock Mechanics and Rock Engineering 52(6), 1645-1656.
  35. Lin, Q., W.-W. Ji, P.-Z. Pan, S. Wang and Y. Lu (2019). "Comments on the mode II fracture from disk-type specimens for rock-type materials." Engineering Fracture Mechanics 211, 303-320.
  36. Hu, L., X.-T. Feng, Y.-X. Xiao, G.-L. Feng, S.-J. Li, P.-Z. Pan and Z.-B. Yao (2019). "Characteristics of the microseismicity resulting from the construction of a deeply-buried shaft." Tunnelling and Underground Space Technology 85, 114-127.
  37. Yan, F., P.-Z. Pan, X.-T. Feng, S.-J. Li and Q. Jiang (2019). "A novel fast overrelaxation updating method for continuous-discontinuous cellular automaton." Applied Mathematical Modelling 66, 156-174.
  38. Blaheta, R., M. Béreš, S. Domesová and P. Pan (2018). "A comparison of deterministic and Bayesian inverse with application in micromechanics." Applications of Mathematics 63(6), 665-686.
  39. Miao, S., P.-Z. Pan*, Z. Wu, S. Li and S. Zhao (2018). "Fracture analysis of sandstone with a single filled flaw under uniaxial compression." Engineering Fracture Mechanics 204: 319-343.
  40. Yan, F., P.-Z. Pan*, X.-T. Feng and S.-J. Li (2018). "The continuous-discontinuous cellular automaton method for elastodynamic crack problems." Engineering Fracture Mechanics 204: 482-496.
  41. Asahina, D., P. Pan, K. Tsusaka, M. Takeda and J. E. Bolander (2018). "Simulating hydraulic fracturing processes in laboratory-scale geological media using three-dimensional TOUGH-RBSN." Journal of Rock Mechanics and Geotechnical Engineering 10(6), 1102-1111.
  42. Graupner, B. J., H. Shao, X. R. Wang, T. S. Nguyen, Z. Li, J. Rutqvist, F. Chen, J. Birkholzer, W. Wang, O. Kolditz, P. Z. Pan, X. T. Feng, C. Lee, K. Maekawa, S. Stothoff, C. Manepally, B. Dasgupta, G. Ofoegbu, R. Fedors, J. D. Barnichon, E. Ballarini, S. Bauer and B. Garitte (2018). "Comparative modelling of the coupled thermal-hydraulic-mechanical (THM) processes in a heated bentonite pellet column with hydration." Environmental Earth Sciences 77(3).
  43. Yan, F., X. T. Feng, J. H. Lv, P. Z. Pan and S. J. Li (2018). "Continuous-discontinuous cellular automaton method for cohesive crack growth in rock." Engineering Fracture Mechanics 188: 361-380.
  44. Pan, P.-Z., F. Yan, X.-T. Feng and Z.-H. Wu (2017). "Study on coupled thermo-hydro-mechanical processes in column bentonite test." Environmental Earth Sciences 76(17): 618.
  45. Yan, F., P.-Z. Pan, X.-T. Feng, J.-H. Lv and S.-J. Li (2017). "An adaptive cellular updating scheme for the continuous–discontinuous cellular automaton method." Applied Mathematical Modelling 46: 1-15.
  46. Garitte, B., T. S. Nguyen*, J. D. Barnichon, B. J. Graupner, C. Lee, K. Maekawa, C. Manepally, G. Ofoegbu, B. Dasgupta, R. Fedors, P. Z. Pan*, X. T. Feng, J. Rutqvist, F. Chen, J. Birkholzer, Q. Wang, O. Kolditz and H. Shao (2017). "Modelling the Mont Terri HE-D experiment for the Thermal–Hydraulic–Mechanical response of a bedded argillaceous formation to heating." Environmental Earth Sciences 76(9): 345.
  47. Garitte, B., H. Shao, X. R. Wang, T. S. Nguyen, Z. Li, J. Rutqvist, J. Birkholzer, W. Q. Wang, O. Kolditz, P. Z. Pan, X. T. Feng, C. Lee, B. J. Graupner, K. Maekawa, C. Manepally, B. Dasgupta, S. Stothoff, G. Ofoegbu, R. Fedors and J. D. Barnichon (2017). "Evaluation of the predictive capability of coupled thermo-hydro-mechanical models for a heated bentonite/clay system (HE-E) in the Mont Terri Rock Laboratory." Environmental Earth Sciences 76(2).
  48. Bond, A. E.*, I. Brusky, T. Q. Cao, N. Chittenden, R. Fedors, X. T. Feng, J. P. Gwo, O. Kolditz, P. Lang, C. McDermott, I. Neretnieks, P. Z. Pan*, J. Sembera, H. Shao, N. Watanabe, H. Yasuhara and H. Zheng (2017). "A synthesis of approaches for modelling coupled thermal-hydraulic-mechanical-chemical processes in a single novaculite fracture experiment." Environmental Earth Sciences 76(1).
  49. Bond, A. E.*, I. Brusky, N. Chittenden, X. T. Feng, O. Kolditz, P. Lang, R. C. Lu, C. McDermott, I. Neretnieks, P. Z. Pan*, J. Sembera, H. Shao, H. Yasuhara and H. Zheng (2016). "Development of approaches for modelling coupled thermal-hydraulic-mechanical-chemical processes in single granite fracture experiments." Environmental Earth Sciences 75(19).
  50. Pan, P. Z., X. T. Feng, H. Zheng and A. Bond (2016). "An approach for simulating the THMC process in single novaculite fracture using EPCA." Environmental Earth Sciences 75(15).
  51. Ji, W. W., P. Z. Pan*, Q. Lin, X. T. Feng and M. P. Du (2016). "Do disk-type specimens generate a mode II fracture without confinement?" International Journal of Rock Mechanics and Mining Sciences 87: 48-54.
  52. Yan, F., X. T. Feng, J. H. Lv, P. Z. Pan and S. J. Li (2016). "A new dual reciprocity hybrid boundary node method based on Shepard and Taylor interpolation method and Chebyshev polynomials." Engineering Analysis with Boundary Elements 73: 61-68.
  53. Pan P., Z. Wu, X. Feng and F. Yan (2016). "Geomechanical modeling of CO2 geological storage: A review." Journal of Rock Mechanics and Geotechnical Engineering 8(6): 936-947.
  54. Pan, P. Z., F. S. Su, H. J. Chen, S. L. Yan, X. T. Feng and F. Yan (2015). " Uncertainty analysis of rock failure behaviour using an integration of the probabilistic collocation method and elasto-plastic cellular automaton." Acta Mechanica Solida Sinica 28(5): 536-555.
  55. Jiang, Q., G. S. Su, X. T. Feng, J. Cui, P. Z. Pan and J. Q. Jiang (2015). "Observation of rock fragment ejection in post-failure response." International Journal of Rock Mechanics and Mining Sciences 74: 30-37.
  56. Lv, J. H., X. T. Feng, F. Yan, P. Z. Pan and G. Z. Xie (2015). "A combined conformal and sinh-sigmoidal transformations method for nearly singular boundary element integrals." Engineering Analysis with Boundary Elements 58: 166-175.
  57. Yan, F., X. T. Feng, P. Z. Pan and S. J. Li (2015). " Rock initiation and propagation simulation under compression-shear loading using continuous-discontinuous cellular automaton method." Acta Mechanica Solida Sinica 28(4): 384-399.
  58. Yan, F., J. H. Lv, X. T. Feng and P. Z. Pan (2015). "A new hybrid boundary node method based on Taylor expansion and the Shepard interpolation method." International Journal for Numerical Methods in Engineering 102(8): 1488-1506.
  59. Zheng, H., X. T. Feng and P. Z. Pan (2015). "Experimental investigation of sandstone properties under CO2-NaCl solution-rock interactions." International Journal of Greenhouse Gas Control 37: 451-470.
  60. Pan, P. Z., J. Rutqvist, X. T. Feng and F. Yan (2014). "An Approach for Modeling Rock Discontinuous Mechanical Behavior Under Multiphase Fluid Flow Conditions." Rock Mechanics and Rock Engineering 47(2): 589-603.
  61. Pan, P. Z., J. Rutqvist, X. T. Feng and F. Yan (2014). "TOUGH-RDCA modeling of multiple fracture interactions in caprock during CO2 injection into a deep brine aquifer." Computers & Geosciences 65: 24-36.
  62. Pan, P. Z., J. Rutqvist, X. T. Feng, F. Yan and Q. Jiang (2014). "A Discontinuous Cellular Automaton Method for Modeling Rock Fracture Propagation and Coalescence Under Fluid Pressurization Without Remeshing." Rock Mechanics and Rock Engineering 47(6): 2183-2198.
  63. Yan, F., X. T. Feng, P. Z. Pan and S. J. Li (2014). "A continuous-discontinuous cellular automaton method for cracks growth and coalescence in brittle material." Acta Mechanica Sinica 30(1): 73-83.
  64. Yan, F., X. T. Feng, P. Z. Pan and S. J. Li (2014). "Discontinuous cellular automaton method for crack growth analysis without remeshing." Applied Mathematical Modelling 38(1): 291-307.
  65. Pan, P. Z., J. Rutqvist, X. T. Feng and F. Yan (2013). "Modeling of caprock discontinuous fracturing during CO2 injection into a deep brine aquifer." International Journal of Greenhouse Gas Control 19: 559-575.
  66. Pan, P. and X. Feng (2013). "Numerical study on coupled thermo-mechanical processes in Äspö Pillar Stability Experiment." Journal of Rock Mechanics and Geotechnical Engineering 5(2): 136-144.
  67. Yan, F., X. T. Feng, P. Z. Pan and Y. P. Li (2013). "A continuous-discontinuous cellular automaton method for regular frictional contact problems." Archive of Applied Mechanics 83(8): 1239-1255.
  68. Pan, P. Z., X. T. Feng and J. A. Hudson (2012). "The influence of the intermediate principal stress on rock failure behaviour: A numerical study." Engineering Geology 124: 109-118.
  69. Pan, P. Z., X. T. Feng and H. Zhou (2012). "Development and applications of the elasto-plastsic cellular automaton." Acta Mechanica Solida Sinica 25(2): 126-143.
  70. Pan, P. Z., F. Yan and X. T. Feng (2012). "Modeling the cracking process of rocks from continuity to discontinuity using a cellular automaton." Computers & Geosciences 42: 87-99.
  71. Pan, P. Z., X. T. Feng, L. F. Shen, S. L. Qiu and H. Zhou (2011). "Effect of precrack length and inclination on tensile failure behaviour of heterogeneous rocks." Materials Research Innovations 15: S557-S560.
  72. Pan, P. Z., X. T. Feng, D. P. Xu, L. F. Shen and J. B. Yang (2011). "Modelling fluid flow through a single fracture with different contacts using cellular automata." Computers and Geotechnics 38(8): 959-969.
  73. Hudson, J. A., A. Backstrom, J. Rutqvist, L. Jing, T. Backers, M. Chijimatsu, R. Christiansson, X. T. Feng, A. Kobayashi, T. Koyama, H. S. Lee, I. Neretnieks, P. Z. Pan, M. Rinne and B. T. Shen (2009). "Characterising and modelling the excavation damaged zone in crystalline rock in the context of radioactive waste disposal." Environmental Geology 57(6): 1275-1297.
  74. Pan, P. Z., X. T. Feng, X. H. Huang, Q. Cui and H. Zhou (2009). "Coupled THM processes in EDZ of crystalline rocks using an elasto-plastic cellular automaton." Environmental Geology 57(6): 1299-1311.
  75. Pan, P. Z., X. T. Feng and J. A. Hudson (2009). "Study of failure and scale effects in rocks under uniaxial compression using 3D cellular automata." International Journal of Rock Mechanics and Mining Sciences 46(4): 674-685.
  76. Rutqvist, J., A. Backstrom, M. Chijimatsu, X. T. Feng, P. Z. Pan, J. Hudson, L. Jing, A. Kobayashi, T. Koyama, H. S. Lee, X. H. Huang, M. Rinne and B. T. Shen (2009). "A multiple-code simulation study of the long-term EDZ evolution of geological nuclear waste repositories." Environmental Geology 57(6): 1313-1324.
  77. Backstrom, A., J. Antikainen, T. Backers, X. T. Feng, L. R. Jing, A. Kobayashi, T. Koyama, P. Z. Pan, M. Rinne, B. T. Shen and J. A. Hudson (2008). "Numerical modelling of uniaxial compressive failure of granite with and without saline porewater." International Journal of Rock Mechanics and Mining Sciences 45(7): 1126-1142.
  78. Pan, P. Z., X. T. Feng and H. Zhou (2008). "RESEARCH ON THE EFFECT OF LOADING CONDITIONS ON THE STRENGTH AND DEFORMATION BEHAVIORS OF ROCKS." International Journal of Modern Physics B 22(31-32): 5545-5550.
  79. Pan, P. Z., X. T. Feng and J. A. Hudson (2006). "Numerical simulations of Class I and Class II uniaxial compression curves using an elasto-plastic cellular automaton and a linear combination of stress and strain as the control method." International Journal of Rock Mechanics and Mining Sciences 43(7): 1109-1117.
  80. Feng, X. T., P. Z. Pan and H. Zhou (2006). "Simulation of the rock microfracturing process under uniaxial compression using an elasto-plastic cellular automaton." International Journal of Rock Mechanics and Mining Sciences 43(7): 1091-1108.
  81. Pan Pengzhi, Mei Wanquan (2021). Dynamic response analysis methodsoftware and applications in engineering rockmass based on CASRock. Hazard Control in Tunnelling and Underground Engineering 3(3): 1-10. (in Chinese)
  82. Wu Zhenhua, Pan Pengzhi*, Pan Junfeng, Wang Zhaofeng, Gao Jiaming (2021). Analysis of mechanism of rock burst and law of mining induced events in graben structural area. Rock and Soil Mechanics. 42(8): 2225-2238. (in Chinese)
  83. Wu Zhenhua, Pan Pengzhi*, Zhao Shankun, Liu Xudong, Miao Shuting, Li Yizhe (2021). Mechanism of rock bursts caused by "roof-rock pillar" in mining steeply-inclined and its prevention and treatment. Journal of China Coal Society. 46(s1): 49-62. (in Chinese)
  84. Shao Changyue, Pan Pengzhi*, Zhao Decai, Yao Tianbo, Miao Shuting, Yu Peiyang (2020). Effect of pumping rate on hydraulic fracturing breakdown pressure and pressurization rate. Rock and Soil Mechanics. 41(7): 2411-2422. (in Chinese)
  85. Qingxin Qi, Yizhe Li, Shankun Zhao, Pengzhi Pan and Xiangzhi Wei (2019). Discussion on the mechanism and control of coal bump among mine group. Journal of China Coal Society 44(1), 141-150. (in Chinese)
  86. Peng Jiang, Pengzhi Pan, Shankun Zhao, Zhenhua Wu and Gang Chen (2018). A coupled elasto-viscoplastic damage model based on strain energy theory of rock and application. Journal of China Coal Society 43(11), 2967-2979. (in Chinese)
  87. Fangsheng Su, Pengzhi Pan, Yaohui Gao, Xiating Feng and Chang Liu (2018). Experimental study on failure process and mechanism of marble containing natural hard structural plane. Chinese Journal of Rock Mechanics and Engineering 37(3): 611-620. (in Chinese)
  88. Yuan Yuan, Pengzhi Pan, Shankun Zhao, Bin Wang and Guihong Song (2018). The failure process of marble with filled crack under uniaxial compression based on digital image correlation. Chinese Journal of Rock Mechanics and Engineering 37(2): 339-351. (in Chinese)
  89. Deyi Jiang, Yi He, Yangzhenhua Ou, Pengzhi Pan, Xiaoshu Wang, Kainan Xie and Xiang Jiang (2017). Acoustic emission energy statistical properties of sandstone during uniaxial creep and its fracture surfaces morphology. Journal of China Coal Society 42(6): 1436-1442. (in Chinese)
  90. Bin Wang, Xiating Feng, Pengzhi Pan and Shaojun Li (2017). Slope failure analysis using the material point method. Chinese Journal of Rock Mechanics and Engineering 36(9): 2146-2155. (in Chinese)
  91. Weiwei Ji, Pengzhi Pan, Fangsheng Su and Mengping Du (2016). Failure mechanism of deep-buried marble under loading-unloading conditions based on crack volumetric strain. Rock and Soil Mechanics 37(11): 3079-3088. (in Chinese)
  92. Weiwei Ji, Pengzhi Pan, Shuting Miao, Fangsheng Su and Mengping Du (2016). Fracture characteristics of two types of rocks based on digital image correlation. Rock and Soil Mechanics 37(8): 2299-2305. (in Chinese)
  93. Mengping Du, Pengzhi Pan, Weiwei Ji, Zhenhua Zhang and Yaohui Gao (2016). Time-space laws of failure process of carbonaceous shale in Brazilian split test. Rock and Soil Mechanics 37(12): 1001-1010. (in Chinese)
  94. Jinbao Yang, Xiating Feng, Pengzhi Pan (2013). Experimental study of permeability characteristics of single rock fracture considering stress history. Rock and Soil Mechanics 34(6): 1629-1635. (in Chinese)
  95. Jinbao Yang, Xiating Feng, Pengzhi Pan, Linfang Shen (2012). Aperture Evolution of Single Fracture in Granite under Triaxial Compressive Stress and Chemical Solution Seepage. Chinese Journal of Rock Mechanics and Engineering 31(9): p. 1869-1878. (in Chinese)
  96. Linfang Shen, Xiating Feng, Pengzhi Pan, Hui Zhou (2011). Chemical kinetics dissolution mechanism of rock under stress. Rock and Soil Mechanics 32(5): 1320-1326. (in Chinese)
  97. Pengzhi Pan, Xiating Feng, Shili Qiu and Hui Zhou (2011). study of failure behavior of deep hard rock under polyaxial stress conditions. Chinese Journal of Rock Mechanics and Engineering 30(6): p. 1116-1125.(in Chinese)
  98. Pengzhi Pan, Xiating Feng, Linfang Shen, Jinbao Yang and Hui Zhou (2011). Study of Anisotropic Creep Behavior of Fractured Granite. Chinese Journal of Rock Mechanics and Engineering 30(1): p. 36-44. (in Chinese)
  99. Pengzhi Pan, Xiating Feng, Hongxiao Wu, Feng Sun and Hui Zhou (2011). Modeling Hydraulic Failure Process Using Elasto-Plastic Cellular Automaton. Journal Of Shanghai Jiaotong University 45(5): p. 722-727. (in Chinese)
  100. Kai Zhang, Hui Zhou, Pengzhi Pan, Linfang Shen, Xiating Feng and Yuangang Zhang (2010). Characteristics of strength of rocks under different unloading rates. Rock and Soil Mechanics 31(7): 2072-2078. (in Chinese)
  101. Yao, Huayan, Pan, Pengzhi (2010). Elasto-plastic cellular automaton simulation of fracturing process in single pre-fractured rocks under uniaxial compression. Applied Mechanics and Materials, 34-35: 383-386.
  102. Dawei Hu, Hui Zhou, Pengzhi Pan, Kai Zhang, Jianfu Shao and Xiating Feng (2010). Study of permeability of sandstone in triaxial cyclic stress tests. Rock and Soil Mechanics 31(9): 2749-2754. (in Chinese)
  103. Linfang Shen, Xiating Feng, Pengzhi Pan, Hui Zhou (2010). Experimental Research on Mechano-Hydro-Chemical Coupling of Granite with Single Fracture. Chinese Journal of Rock Mechanics and Engineering 29 (7): p. 1379-1388. (in Chinese)
  104. Pengzhi pan, xiating feng and hui zhou (2009). Failure evolution processes of brittle rocks using 3D cellular automaton method. Rock and Soil Mechanics 30(05): 1471-1476. (in Chinese)
  105. Pengzhi pan, wuxiu ding, xiating feng, huayan yao, hui zhou (2008). Research on Influence of Pre-Existing Crack Geometrical and Material Properties on Crack Propagation in Rocks. Chinese Journal of Rock Mechanics and Engineering 27(9): 1882-1889. (in Chinese)
  106. Pengzhi Pan, Hui Zhou, Xiating Feng (2008). Research on Effect of Loading Conditions on Failure Processes of Rocks with Different Sizes under Uniaxial Compression. Chinese Journal of Rock Mechanics and Engineering 27 (S2): 3636-3642. (in Chinese)
  107. Xiating Feng, Pengzhi Pan, Wuxiu Ding, J. A. Hudson, Hui Zhou (2008). Thermo-Hydro-Mechano-Chemical Coupling Studies on Excavation Damage Zone in Crystalline Rocks. Chinese Journal of Rock Mechanics and Engineering 27(4): 656-663. (in Chinese)
  108. Pengzhi Pan, Xiating Feng, Hui Zhou (2007). BMT Simulation of Coupled THM Processes by Near Field Model in Excavation Damage Zone. Chinese Journal of Rock Mechanics and Engineering 26(12): 2532-2540. (in Chinese)
  109. Pengzhi Pan, Hui Zhou, Xiating Feng (2006). Analysis of Mechanism of Rock Behaviors of Classes I and Ii Using Elastoplastic Cellular Automata. Chinese Journal of Rock Mechanics and Engineering 25(S2): 3823-3829. (in Chinese)
  110. Hui Zhou, Pengzhi Pan, Xiating Feng (2006). Plane Elastoplastic Cellular Automata Model of Failure Process of Rocks Under Cyclic Loading. Chinese Journal of Rock Mechanics and Engineering 25(S2): 3623-3628. (in Chinese)


Selected Conference Papers

  1. Feng, X.-T., P.-Z. Pan, Z. Wang and Y. Zhang (2021). Development of Cellular Automata Software for Engineering Rockmass Fracturing Processes. International Conference of the International Association for Computer Methods and Advances in Geomechanics, Torino, Italy, Springer International Publishing.

  2. Bond, A. E., N. Chittenden, R. Fedors, P. Lang, C. McDermott, I. Neretnieks, P. Z. Pan, J. embera, I. Brusky, N. Watanabe, R. Lu and H. Yasuhara (2018). Coupled THMC modelling of single fractures in novaculite and granite. 2nd International Discrete Fracture Network Engineering Conference, DFNE 2018, June 20, 2018 - June 22, 2018, Seattle, WA, United states, American Rock Mechanics Association (ARMA).

  3. Su, F. and P. Pan (2018). Experimental study on confining pressure effect of hard rock indirect tensile test and mechanical mechanism. 2018 4th International Conference on Applied Materials and Manufacturing Technology, ICAMMT 2018, May 25, 2018 - May 27, 2018, Nanchang, China, Institute of Physics Publishing.

  4. Pan, P., W. Ji, and X. Feng (2015). Experimental Study on Loading-Unloading Failure Process of Marble in Jinping II Hydropower Station, China. in 49th US Rock Mechanics/Geomechanics Symposium. 2015. American Rock Mechanics Association.

  5. Pan, P.*, X. Feng, F. Yan, W. Ji and F. Su (2015). Numerical Analysis on Spalling Failure in Rocks using a Continuous-Discontinuous Method. 13th ISRM International Congress of Rock Mechanics, International Society for Rock Mechanics.

  6. Pan, P.*, X. Feng, W. Ji and F. Su (2014). "Simulation of coupled THM processes in Opalinus clay with an EPCA3D." Transit Development in Rock Mechanics: Recognition, Thinking and Innovation: 409-413.

  7. Pan, P.-Z., X.-T. Feng, and F. Yan. Modeling of Rock Mechanical Behaviors Under Excavation Using a Continuous-Discontinuous Cellular Automaton. in ISRM Conference on Rock Mechanics for Natural Resources and Infrastructure-SBMR 2014. 2014. International Society for Rock Mechanics.

  8. Ji, W., P. Pan, and F. Su, Study on the failure process of marble using maximum entropy theory. Transit Development in Rock Mechanics: Recognition, Thinking and Innovation, 2014: p. 249-252.

  9. Pan, P. Z., X. T. Feng, F. Yan, and J. Rutqvist. The fracturing of heterogeneous caprock during CO2 injection into a brine aquifer. in 3rd ISRM Symposium on Rock Characterisation, Modelling and Engineering Design Methods, SINOROCK 2013, June 18, 2013 - June 20, 2013. 2013. Shanghai, China: Taylor & Francis - Balkema.

  10. Pengzhi Pan, Jonny Rutqvist, Xiating Feng, Fei Yan. The influence of caprock initial damage on its fracturing process during CO2 injection into a brine aquifer. 47th US Rock Mechanics / Geomechanics Symposium 2013. San Francisco, USA, 23-26 June 2013

  11. Pan, P.Z., X.T. Feng, and H. Zhou. Solid Cellular Automaton Method for the Solution of Physical Field. 2009 World Congress on Computer Science and Information Engineering. CSIE 2009. March 31-April 2. Los Angeles, California USA. Pp. 765-768

  12. Pan, P.Z., X.T. Feng, and H. Zhou, Research on the Effect of Loading Conditions on the Strength and Deformation Behaviors of Rocks. Engineering Plasticity and Its Applications: From Nanoscale to Macroscale, 2009: p. 173-178.

  13. Pan, P.-Z., X.-T. Feng, and H. Zhou, Numerical study of acoustic emission in the unloading failure process of heterogeneous rocks. In 7th International Symposium on Rockburst and Seismicity in Mines 2009, RASIM7: Dalian, P R China. p. 555-560.

  14. Shen L., X. Feng, P. Pan, J. Yang, Experimental Study on Relationship between Hydraulic Aperture and Rock-Water Dissolution of Granite. 46th US Rock Mechanics / Geomechanics Symposium 2012. June 24, 2012 - June 27, 2012, Chicago, IL, United states, p: 916-920

  15. Yao Huayan, Pan Pengzhi. Elasto-plastic cellular automaton simulation of fracturing process in single pre-fractured rocks under uniaxial compression. Applied Mechanics and Materials, 34-35卷, pp 383-386,  2010.

  16. Yan, F., X.-T. Feng, and P.-Z. Pan. Simulation of rock crack propagation using continuous-discontinuous cellular automaton method. in 3rd ISRM Symposium on Rock Characterisation, Modelling and Engineering Design Methods, SINOROCK 2013, June 18, 2013 - June 20, 2013. 2013. Shanghai, China: Taylor & Francis - Balkema.

  17. Yang, J., X. Feng, L. Shen, and P. Pan, Experimental research on aperture evolution of single granite fracture under stress-chemical solution permeation condition. Rock Mechanics: Achievements and Ambitions, 2011: p. 221-227.

  18. Yao, H. Y., Z. H. Zhang and P. Z. Pan, Mechanical properties of sandstone after cyclic drying and wetting. Rock Mechanics: Achievements and Ambitions, 2011: p. 235-238.

  19. J. C. Andersson, X. T. Feng, P. Z. Pan, T. Koyama, S. Kwon, C. S. Lee, M. Rinne, B. Shen,  H. Lan, C. D. Martin, Y. Chen, C. Zhou, R. Blaheta, R. Kohut, L. Jing. 2010. Modeling the Äspö Pillar Stability Experiment. In: Rock Mechanics in Civil and Environmental Engineering. EUROCK 2010, ed. J. Zhao, V. Labiouse, J. P. Dudt, J. F. Mathier, CRC Press. Pp 787-790.

  20. B. J. Graupner, C. Lee, K. Maekawa, C. Manepally, P. Pan, J Rutqvist, W. Wang, B. Garitte. The Mont Terri HE-D Experiment as a Benchmark for the Simulation of Coupled THM Processes. International Workshop on Geomechanics & Energy. 26-28 November 2013, Lausanne, Switzerland.

  21. Pan, P.Z., X.T. Feng, and H. Zhou. Study of the hydro-fracturing processes in heterogeneous rocks using an elasto-plastic cellular automaton. in Advances in Heterogeneous Material Mechanics 2008 - 2nd International Conference on Heterogeneous Material Mechanics, ICHMM 2008, June 3, 2008 - June 8, 2008. 2008. Huangshan, China: DEStech Publications Inc.

  22. Peng-Zhi Pan, Xia-Ting Feng, Lin-Fang Shen, Hui Zhou. 2009. Numerical study of fluid flow in rock fractures. Proceedings of the ISRM-Sponsored International Symposium on Rock Mechanics: “Rock Characterisation, Modelling and Engineering Design Methods”. SINOROCK 2009. Hong Kong, China.

  23. P-Z Pan, X-T Feng, X-H Huang, H Zhou. The influence of fractures in the Wall-Block model domain in the EDZ using an EPCA code. In: Thermo-Hydromechanical and Chemical Coupling in Geomaterials and Applications, Proceedings of the 3rd International Symposium GeoProc’2008, ed. Jian-Fu Shao and Nicolas Burlion. Wiley. Pp. 399-407.

  24. Xia-Ting Feng, Peng-Zhi Pan, Hui Zhou, J A Hudson. 2009. Cellular automaton modelling of heterogeneous rock failure processes. Proceedings of the ISRM-Sponsored International Symposium on Rock Mechanics: “Rock Characterisation, Modelling and Engineering Design Methods”. SINOROCK 2009. Hong Kong, China.

  25. P. Z. Pan, J. Rutqvist, F. Yan, X. T. Feng, An approach for modelign rock discontinuous behavior under multiphase fluid flow conditions. TOUGH2 Symposium 2012. September 17-19, 2012, Berkeley, California, USA.

  26. Pengzhi Pan, Jonny Rutqvist, Fei Yan, Xiating Feng, A study of caprock continuous-discontinuous fracturing process in CO2-injection into a brine aquifer. AGU Fall meeting, December 3-7, 2012, San Francisco, California, USA.

  27. X-T Feng, J. Rutqvist, P-Z Pan. Numerical Study of the Influence of Fractures on the EDZ around a Nuclear Waste Emplacement Drift. In: Thermo-Hydromechanical and Chemical Coupling in Geomaterials and Applications, Proceedings of the 3rd International Symposium GeoProc’2008, ed. Jian-Fu Shao and Nicolas Burlion. Wiley. Pp. 363-371

  28. J. Rutqvist, A. Bäckström, M. Chijimatsu, X-T Feng, P-Z Pan, J. Hudson, L. Jing, A. Kobayashi, T. Koyama, H-S Lee, X.-H Huang, M. Rinne, B. Shen, E. Sonnenthal. Assessment of Modelling Approaches for Analysis of Coupled THMC Processes in the EDZ of Geological Nuclear Waste Repositories. Geoproc 2008. In: Thermo-Hydromechanical and Chemical Coupling in Geomaterials and Applications, Proceedings of the 3rd International Symposium GeoProc’2008, ed. Jian-Fu Shao and Nicolas Burlion. Wiley. Pp. 687-696.

Book and Book Chapters

  1. Peng-Zhi Pan and Qing Lin (2020). Rock Fracture Mechanics—Cracking Visualization, Analysis and Applications. Science Press. ISBN: 978-7-03-067012-0. (Book)
  2. Pan, P. and X. Feng (2018). Numerical Study of the Rockburst Mechanism Using the Elastoplastic Cellular Automaton. Rockburst: Mechanisms, Monitoring, Warning and Mitigation. X.-T. Feng, Butterworth-Heinemann183-199. (Book chapter)
  3. Yan, F., P. Pan and X. Feng (2018). Rockburst Development Process Simulation Using Continuum-Discontinuum Cellular Automaton Rockburst: Mechanisms, Monitoring, Warning and Mitigation. X.-T. Feng, Butterworth-Heinemann199-211.(Book chapter)


Research Interests

  1. Continuum-discontinuum numerical methods on rock fracturing process

  2. Experimental study on rock fracture mechanics based on optic and acoustic techniques

  3. Coupled thermo-hydro-mechanical-chemical processes in fractured geological media

  4. Numerical evaluation on rockburst risk in mining and tunneling


Conference Presentations


Collaboration

  1.  2004-2015, 2020-2023 Active in a research team for the international collaboration project DECOVALEX-THMC, DECOVALEX-2011, DECOVALEX-2015 and DECOVALEX-2023 (Development of COupled models and their VAlidation against EXperiments in nuclear waste isolation).
  2.  2011-2013, 2017.9, worked with Dr. Jonny Rutqvist at Lawrence Berkeley National Laboratory (LBNL) as a Visiting Scholar in the modeling of coupled thermal–hydraulic–mechanical–chemical (THMC) processes in geological media.
  3. 2017-2018, work with Dr. Daisuke Asahina from Geological Survey of Japan on permeability evolution under triaxial compression deformation of geomaterials.
  4.  2017-present, work with Dr. Petr Konicek from Institute of Geonics, the Czech Academy of Sciences on CT and computational micromechanics of rocks, Impact of destress blasting on the stress field.
  5. 2020-present, work with Dr. Dianlei Feng from Gottfried Wilhelm Leibniz Universität Hannover (LUH), Germany on Numerical and experimental investigations of the bio-sealing process in fractured rocks.
  6. 2021-present, work with Dr. Amin Hekmatnejad from Pontificio Universidad Catolica de Valparaiso, Chile on the role of DFN geometry and topology on fragmentation and its micro seismic activity in block cave mining.

Students

已指导学生

苗书婷  博士研究生  081401-岩土工程  

刘张浩  硕士研究生  081401-岩土工程  

吴振华  博士研究生  081401-岩土工程  

郁培阳  博士研究生  081401-岩土工程  

邵长跃  硕士研究生  081401-岩土工程  

徐隽松  硕士研究生  085213-建筑与土木工程  

现指导学生

李建国  博士研究生  081401-岩土工程  

侯文博  硕士研究生  081400-土木工程  

封雨捷  博士研究生  081400-土木工程  

李雨芯  硕士研究生  081400-土木工程  

Scholarly Services

  1. Member of Editorial Board, Tunnelling and Underground Space Technology. 2023.3-present
  2. Co-Chair, International Conference on Coupled Processes in Fractured Geological Media: Observation, Modeling, and Application, CouFrac 2022 (Conference chair: Jonny Rutqvist; Co-chairs: Mengsu Hu, Carl I. Steefel, Ki-Bok Min, Antonio Pio Rinaldi, Pengzhi Pan, Hideaki Yasuhara), 2022
  3. Member of Editorial Board, Journal of Rock Mechanics and Geotechnical Engineering. 2020.9-present
  4. Session Organizer, International Conference on coupled processes in fractured geological media: observation, modeling, and application, CouFrac 2020, 2020
  5. Member, Commission on Radioactive Waste Disposal, International Society for Rock Mechanics and Rock Engineering, 2020- Present
  6. Scientific Advisory Committee member, DECOVALEX 2019 Symposium on Coupled Processes in Radioactive Waste Disposal and Subsurface Engineering Applications, 2019.
  7. Vice Chairman, Commission on Rock Mass Mathematics and Physics Modeling, Chinese Society for Rock Mechanics and Engineering, 2018-Present
  8. Guest Editor, Journal of Rock Mechanics and Geotechnical Engineering Special Issue: CouFrac 2018 (Co-editors: Jonny Rutqvist, Pengzhi Pan, Antonio Rinaldi), 2018-2020
  9. Secretary General, Commission on Coupled Thermal-Hydro-Mechanical-Chemical Processes in Fractured Rock, International Society for Rock Mechanics and Rock Engineering, 2018-2020
  10. Co-Chair, International Conference on Coupled Processes in Fractured Geological Media: Observation, Modeling, and Application, CouFrac 2018 (Conference chair: Jonny Rutqvist; Co-chairs: Ki-Bok Min, Pengzhi Pan, Mengsu Hu), 2018
  11. Reviewer, NSFC CAREER proposal, 2008-Present
  12. Reviewer for: Theoretical and Applied Fracture Mechanics, Engineering Fracture Mechanics, Rock Mechanics and Rock Engineering, International Journal of Rock Mechanics and Mining Sciences, Arabian Journal of Geosciences, Computers and Geotechnics, Journal of Rock Mechanics and Geotechnical Engineering, Tunneling and Underground Space Technology, Environmental Earth Sciences, Engineering Geology, International Journal of Geomechanics, International Journal for Numerical and Analytical Methods in Geomechanics


Funded Research Project Award

  1. 2022-2026, PI, The National Science Fund for Distinguished Young Scholars "Engineering rockmass fracturing mechanism and numerical method"

  2. 2016-2021, PI, Key Research Program of Frontier Sciences, Chinese Academy of Sciences, "Deep engineering rockmass time-dependent damage evolution mechanism and numerical modeling ".

  3. 2017-2020, PI, State Key Research Development Program of China, "Rockburst prevention and control in coal mine group under large scale geological body ".

  4. 2017-2019, PI, International Cooperation Project of Chinese Academy of Sciences, "Coupled THM long term behaviour of wall rock in high level nuclear waste disposal".

  5. 2014-2016, PI, National Natural Science Foundation of China (NSFC) for Excellent Young Scholar “Nonlinear and discontinuous failure mechanism and simulation method of rock mass”.

  6. 2013-2016, PI, National Natural Science Foundation of China (NSFC) “Study on discontinuous deformation behaviour and numerical method of hard rock under unloading in high stress”.

  7. 2010-2012, PI, National Natural Science Foundation of China (NSFC) proposal “Research on the effect of thermal on creep behavior and permeability variation of fractured granite”.

  8. 2008.1-2010, PI, National Natural Science Foundation of China (NSFC) proposal “Research on 3D model of rock failure process under hydro-mechanical effect using an evolution cellular automaton and its simulation”.

  9. 2009-2010, PI, Natural Science Foundation of Hubei Province “Research on permeability evolution of rocks under cyclic loading”.