一、代表性论文(Selected papers) [1] Zhang Xiao-Ping, Wong Louis Ngai Yuen. (2012) Cracking processes in rock-like material containing a single flaw under uniaxial compression: a numerical study based on parallel bonded-particle model approach. Rock Mechanics and Rock Engineering, 45(5): 711-737 (2022, 04:被引480次,RMRE排名第3,ESI 高被引) [2] Zhang Xiao-Ping, Wong Louis Ngai Yuen (2013) Crack initiation, propagation and coalescence in rock-like material containing two flaws: a numerical study based on bonded-particle model approach. Rock Mechanics and Rock Engineering, 46(5):1001-1021 (2022, 04:被引312次,RMRE排名第11,ESI 高被引) [3] Zhang Xiao-Ping, Liu Quansheng, Wu Shunchuan, Tang Xuhai (2015). Crack coalescence between two non-parallel flaws in rock-like material under uniaxial compression. Engineering Geology, 199: 74-90. [4] Zhang Xiao-Ping, Zhang Qi, Wu Shunchuan (2017). Acoustic Emission Characteristics of the Rock-Like Material Containing a Single Flaw under Different Compressive Loading Rates. Computers and Geotechnics. 83: 83-97. (Scott Sloan Best Paper Award for 2020) [5] Zhang Xiao-Ping, Zhang Qi (2017). Distinction of Crack Nature in Brittle Rock-Like Materials: A Numerical Study Based on Moment Tensors. Rock Mechanics and Rock Engineering, 50(10): 2837-2845. [6] Zhang Qi,Zhang Xiao-Ping, Ji Pei-Qi (2018) Reducing the anisotropy of a Brazilian disc generated in a bonded-particle model [J]. Acta Mechanica Sinica, 34(4): 716-727. (期刊封面论文) [7] Ji Pei-Qi,Zhang Xiao-Ping,Zhang Qi (2018). A new method to model the non-linear crack closure behavior of rocks under uniaxial compression. International Journal of Rock Mechanics and Mining Sciences. 122: 171-183. [8] Zhang Xiao‑Ping, Xie Wei-Qiang, Cai Kang-Yi, Liu Quan-Sheng, Wu Jian, Li Wei-Wei (2021). Evaluation of rock muck using image analysis and its application in the TBM tunneling. Tunnelling and Underground Space Technology. 113:103974. [9] Zhang Xiao‑Ping, Zhang Qi, Liu Quan‑Sheng, Xiao Ruihua (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 (2022), 17(10): 140-150. (IF=12.834) [10] Zhang Xiao‑Ping, Yang Xin-Mei, Xie Wei-Qiang, Liu Quan‑Sheng, Tang Shao-hui (2023). Comparison and Selection of Index for Macro‑indentation Test of Brittle Rock, Rock Mechanics and Rock Engineering, https://doi.org/10.1007/s00603-023-03373-5.
二、主要专利 [1] 盾构刀具磨损试验装置及试验方法,发明专利,专利号:201710980225.1,2019.07 [2] 一种测量岩石压缩裂纹拓展过程声波波速的连续测量方法,ZL 2012 1 0008360.7, 发明专利,2015-05 [3] 一种TBM滚刀磨损在线实时监测装置及监测方法,ZL 2015 1 0754192.X,发明专利,2017-11 [4] 盾构刀具磨损试验装置及试验方法,ZL 201710980225.1,发明专利,2019-07 [5] 一种结构可调整的盾构刀具磨损试验模型刀盘,ZL 2017 1 1408265.5,发明专利, 2020-03 [6] 一种盾构刮刀磨损在线实时监测系统,ZL201610127886.5,发明专利,2017-12 [7] 一种适用于TBM隧洞的声发射监测实施系统,ZL 201610053989.1,发明专利,2018-01 [8] 一种围岩与全断面隧道掘进机护盾相互作用过程监测方法,ZL 201610361371.1,发明专利,2018-06 [9] 长距离深埋隧洞TBM掘进施工中排水和降温系统及方法,ZL202010190082.6,发明专利,2020-12 [10]一种TBM开挖岩渣信息自动采集与分析系统及方法,ZL 202010985349.0,发明专利,2021-12 [11] 一种工程岩体力学参数快速自动测量装置及应用方法,ZL202010363954.4,发明专利,2021-12 [12] 一种适用于深埋隧洞围岩波速的现场测试方法,发明专利. ZL 202010909665X,发明专利,2022-01
三、教材专著 [1] 张晓平,唐少辉,刘浩,陈鹏. 特高压越江电力管廊盾构施工关键技术. 中国建筑工业出版社, 北京,2022.11 书号(ISBN):978-7-112-27679-0 [2] 吴顺川, 李利平, 张晓平. 岩石力学. 高等教育出版社, 北京, 2021.09 [3] 倪福全, 邓玉, 王丽峰, 漆力健, 胡 建, 茆大炜, 张晓平, 潘鹏志. 工程地质及水文地质实验实习指导. 普通高等院校水利工程专业系列规划教材.西南交通大学出版社, 成都, 2015. [4] 《英汉岩石力学与岩石工程大辞典》编委会(编委成员), 中国岩石力学与工程学会. 英汉岩石力学与岩石工程大辞典, 中国建筑工业出版社, 2016. |