一、代表性论文(Selected papers) 1. Zhang X. P.*, Zhang Q.* Liu Q.S., Xiao R.H. 2022. A numerical study of wave propagation and cracking processes in rock-like material under seismic loading based on the bonded-particle model approach. Engineering, 22. https://doi.org/10.1016/j.eng.2021.09.023 (SCI, Q1, IF=12.83) 2. Zhang Q., Zhang X. P., Yang SQ. 2022. Numerical study of fracture failure nature around the circular and horseshoe openings using the bonded-particle model. Geophysical Journal International. https://doi.org/10.1093/gji/ggac360 (SCI, Q1, IF=3.32) 3. Zhang Q., Zhang X. P., Wang H.J., et al. 2022. Numerical study of the effect of grout material properties on ground deformations during shallow TBM tunneling. KSCE Journal of Civil Engineering. https://doi.org/10.1007/s12205-022-1028-y (SCI, Q2, IF=2.15) 4. Zhang Q., Zhang X. P., Yang SQ. 2021. A numerical study of acoustic emission characteristics of sandstone specimen containing a hole-like flaw under uniaxial compression. Engineering Fracture Mechanics, 242, 107430. https://doi.org/10.1016/j.engfracmech.2020.107430 (SCI, Q1, IF=3.426) 5. Zhang Q., Zhang X. P., Sun W. 2021. A review of laboratory studies and theoretical analysis for the interaction mode between induced hydraulic fractures and pre-existing fractures. Journal of Natural Gas Science and Engineering, 86, 103719. https://doi.org/10.1016/j.jngse.2020.103719 (SCI, Q2, IF=3.841) 6. Zhang Q., Zhang X. P., Ji P. Q. et al. 2020. Study of interaction mechanisms between multiple parallel weak planes and hydraulic fracture using the bonded-particle model based on moment tensors. Journal of Natural Gas Science and Engineering, 76, 03176. https://doi.org/10.1016/j.jngse.2020.103176 (SCI, Q2, IF=3.841) 7. Zhang Q., Zhang X. P., Zhang H. et al. 2020. Study of interaction mechanisms between hydraulic fracture and weak plane with different strengths and widths using the bonded-particle model based on moment tensors. Engineering Fracture Mechanics, 225, 106813. https://doi.org/10.1016/j.engfracmech.2019.106813 (SCI, Q1, IF=3.426) 8. Zhang Q., Zhang X. P., Sun W. 2020. Hydraulic fracturing in transversely isotropic tight sandstone reservoirs: a numerical study based on bonded-particle model approach. Journal of Structural Geology, 136, 104068. https://doi.org/10.1016/j.jsg.2020.104068 (SCI, Q2, IF=3.128) 9. Zhang Q., Zhang X. P., Ji P. Q. 2019. Numerical study of interaction between a hydraulic fracture and a weak plane using the bonded-particle model based on moment tensors. Computers and Geotechnics, 105:79-93. https://doi.org/10.1016/j.compgeo.2018.09.012 (SCI, Q1, IF=3.345) 10. Zhang Q., Zhang X. P., 2018. The crack nature analysis of primary and secondary cracks: a numerical study based on moment tensors. Engineering Fracture Mechanics, 210:70-83. https://doi.org/10.1016/j.engfracmech.2018.05.006 (SCI, Q1, IF=3.426) 11. Zhang Q., Zhang X. P., Ji P.Q., 2018. Reducing the anisotropy of a Brazilian disc generated in a bonded-particle model. Acta Mechanica Sinica, 34(4):716-727. https://doi.org/10.1007/s10409-018-0754-3 (期刊封面论文, SCI, Q3, IF=1.897) 12. Zhang Q., Zhang X. P., 2017. A numerical study on cracking processes in limestone by the b-value analysis of acoustic emissions. Computers and Geotechnics, 92, 1-10. https://doi.org/10.1016/j.compgeo.2017.07.013 (SCI, Q1, IF=3.345) 二、主要申请/授权发明专利 1. 张旗, 张晓平, 王浩杰, 董鹏, 赵力, 刘泉声, 傅少君. 一种TBM施工隧洞拱腰岩爆防治方法. 申请号:2023101627688, 发明专利. 2. 张旗, 张晓平, 吴坚, 刘泉声. 一种基于微震监测破裂源时空强参数的岩爆预测方法. 申请号:202310035649.6, 发明专利. 3. 张旗, 张晓平, 刘泉声, 邱俊博, 刘德美. 一种可回收式微震传感器安装装置及安装回收方法. 申请号:202211719994.3, 发明专利. 4. 张旗, 张晓平, 刘泉声,刘重羊. 声发射传感器的固定装置. 申请号:2022106948746, 发明专利. 5. 张晓平, 张旗,孙伟,刘重羊. 一种基于3D雕刻技术的岩石结构面重构雕刻方法. 申请号:2022108478783, 发明专利. 6. 张旗,张晓平,许丹,王浩杰,李有道.一种盾构隧道开挖过程及地表变形三维有限差分数值模拟方法. 申请号:2022102757824, 发明专利. 7. 张旗, 张晓平, 孙伟. 研究水力压裂诱发断层活化的试验方法. 申请号:202011231661.7, 发明专利. |