基本信息
姓名:尹乾
出生年月:1989年1月
學位:博士
職稱:副教授、博士生導師
研究領域:地下工程岩石力學理論與圍岩穩定控制、裂隙岩體剪切非線性滲流機理
招收研究生專業:岩土工程、土木水利工程
E-mail:Jeryin@foxmail.com
電話:15152113741
個人簡介
江蘇省優青、中國科協青年托舉、中國博士後國際交流計劃派出項目入選者。2017/06獲伟德官网bv岩土工程專業博士學位,入選江蘇省土木工程專業優秀博士畢業研究生;2014/11-2016/11在澳大利亞The University of Western Australia聯合培養;2019/09-2021/09在日本Nagasaki University訪問交流;主要從事深部地下工程圍岩穩定控制、裂隙岩體強度破壞與裂紋擴展機制、裂隙岩體非線性滲透特性等方面的研究工作。主持國家自然科學基金(面上、青年)等縱向課題10餘項;參與國家自然科學基金重點項目、國家重點研發計劃項目等多項研究課題。第一/通訊作者在《Journal of Hydrology》、《Rock Mechanics and Rock Engineering》、《International Journal of Geomechanics》、《岩石力學與工程學報》等期刊發表SCI/EI論文40餘篇(ESI高被引2篇)、出版學術專著1部、申請授權發明專利20項、獲軟件著作權5項,獲省部級科技獎勵5項。
教育和工作經曆
2020.01-至今,伟德官网bv,深部岩土力學與地下工程國家重點實驗室,副研究員
2017.07-2019.12,伟德官网bv,深部岩土力學與地下工程國家重點實驗室,助理研究員
2019.08-至今,伟德官网bv,礦業工程學院,采礦工程專業,博士後,合作導師:何滿潮院士
2019.09-2021.09,Nagasaki University,工學部工學研究科,岩土工程專業,博士後,合作導師:蔣宇靜教授
2017.07-2019.07,伟德官网bv,深部岩土力學與地下工程國家重點實驗室,力學專業,師資博士後,合作導師:鞠楊教授
2014.11-2016.11,The University of Western Australia,土木、環境與采礦工程學院,岩土工程專業,聯合培養博士,合作導師:馬國偉教授
2012.09-2017.06,伟德官网bv,深部岩土力學與地下工程國家重點實驗室,岩土工程專業,博士(推免直博),導師:靖洪文教授
2008.09-2012.06,伟德官网bv,力學與建築工程學院,土木工程專業,本科
科研項目
1. 國家自然科學基金面上項目(52174092),深部高滲壓硐室圍岩卸荷剪切滲流特征與納米改性注漿封水機理,2022/01-2025/12,58萬元,主持
2. 江蘇省優秀青年基金項目,深部裂隙岩體流固耦合理論,2022/07-2025/06,50萬元,主持
3. 國家自然科學基金青年項目(51904290),基于分形重構與3D打印的深部硐室裂隙圍岩非線性滲流特性,2020/01-2022/12,26萬元,主持
4. 中國博士後“國際交流計劃”派出項目(20190021),深部地下工程岩體的流-固-熱-化學多場耦合作用機理研究,2019/09-2021/09,60萬元,主持
5. 江蘇省自然科學基金青年基金項目(BK20180663),深部硐室圍岩複雜三維裂隙網絡非線性滲流特性研究,2018/07-2021/06,20萬元,主持
6. 中國博士後科學基金面上項目(2017M621868),複雜受力狀态下大尺度三維岩體裂隙網絡非線性滲流機制,2017/07-2019/06,5萬元,主持
7. 徐州市科技計劃項目(KC21033),深部高滲透壓硐室圍岩滲流特性與穩定性控制研究,2021/09-2023/08,5萬元,主持
8. 深部岩土力學與地下工程國家重點實驗室自主研究課題(Z19006),廢棄煤礦抽水蓄能電站水庫災變機理與圍岩-支護長時穩定控制,2019/01-2021/12,80萬元,主持
9. 國家自然科學基金重點基金項目,51734009,深部開采與巷道圍岩穩定控制信息化基礎理論,2018/01-2022/12,360萬元,參與
10. 國家重點研發計劃項目課題,2017YFC0603001,千米深井強采動巷道圍岩劣化與強度衰減規律,2017/01-2021/12,70萬元,參與
11. 國家重點基礎研究發展計劃(973)項目,2013CB036003,深長隧道突水突泥災變演化與失穩機理,2013/01-2017/12,608萬元,參與
代表性研究成果和學術獎勵情況
一、代表性論文
1. Qian Yin, Jiangyu Wu, Zheng Jiang, Chun Zhu, Haijian Su, Hongwen Jing, Xiaowei Gu. Investigating the effect of water quenching cycles on mechanical behaviors for granites after conventional triaxial compression, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2022, 8: 77. (SCI)
2. Qian Yin, Jiangyu Wu, Chun Zhu, et al. Shear mechanical responses of sandstone exposed to high temperature under constant normal stiffness boundary conditions, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2021, 7(2): 1-17. (SCI)
3. Qian Yin, Jiangyu Wu, Hongwen Jing, et al. The role of multiple heating and water cooling cycles on physical and mechanical responses of granite rocks, Geomechanics and Geophysics for Geo-Energy and Geo-Resources, 2021, 7: 69. (SCI)
4. Qian Yin, Guowei Ma, Hongwen Jing, et al. Hydraulic properties of 3D rough-walled fractures during shearing: an experimental study. Journal of Hydrology, 2017, 555, 169-184. (SCI)
5. Qian Yin, Hongwen Jing, Guowei Ma, et al. Investigating the roles of included angle and loading condition on the critical hydraulic gradient of real rock fracture networks, Rock Mechanics and Rock Engineering, 2018, 51(10), 3167-3177. (SCI)
6. Qian Yin, Richeng Liu, Hongwen Jing, et al. Experimental study of nonlinear flow behaviors through fractured rock samples after high temperature exposure, Rock Mechanics and Rock Engineering, 2019, 52, 2963-2983. (SCI)
7. Zheng Jiang, Tianci Deng, Qian Yin *, et al. Numerical modeling of fluid flowing properties through porous media with single rough fractures, Geofluids, 2021, 6611723. (SCI, 通訊作者)
8. Jiangyu Wu, Qian Yin *, Hongwen Jing, et al. Strength prediction based on ultrasonic property of fractal gangue cemented rockfill reinforced by carbon nanotubes, Construction and Building Materials, 2021, 303(11): 124444. (SCI, 通訊作者)
9. Qian Yin, Hongwen Jing, Tantan Zhu, Lizhou Wu, Haijian Su, Liyuan Yu. Spatiotemporal evolution characteristics of fluid flow through large-scale 3D rock mass containing filling joints: An experimental and numerical study. Geofluids, 2021, 8883861. (SCI)
10. Qian Yin, Yujing Jiang, Richeng Liu. Introduction to the special issue on modeling and simulation of fluid flows in fractured porous media: Current trends and prospects, Computer Modeling in Engineering & Sciences, 2021, 26(2): 437-441. (SCI)
11. Junfu Zhu, Qian Yin *, Hongwen Jing, et al. Experimental and Numerical Study on Anchorage Strength and Deformation Properties of Blocky Rock Mass, Computer Modeling in Engineering and Sciences, 2020, doi: 10.32604/cmes.2020.012648. (SCI, 通訊作者)
12. Richeng Liu, Hongwen Jing, Qian Yin *, et al. An experimental study on fractal pore size distribution and hydro-mechanical properties of granites after high temperature treatment, Fractals, 2021, 29(4): 2150083. (SCI, 通訊作者)
13. Jiangyu Wu, Qian Yin *, Hongwen Jing, et al. Particle size distribution of aggregates effects on mesoscopic structural evolution of cemented waste rock backfill, Environmental Science and Pollution Research, 2021, 28(2): 1-13. (SCI, 通訊作者)
14. Jiangyu Wu, Qian Yin *, Hongwen Jing. Surface roughness and boundary load effect on nonlinear flow behavior of fluid in real rock fractures. Bulletin of Engineering Geology and the Environment, 2020, 79: 4917-4932. (SCI, 通訊作者)
15. Qian Yin, Xiaojing Li, Liyuan Yu, et al. Visualization techniques on solute removal from a large-scale fracture plane considering different flow paths and different hydraulic head differences, Computer Modeling in Engineering and Sciences, 2020, 124(1): 345-373. (SCI)
16. Qian Yin, Hongwen Jing, Haijian Su, et al. Experimental study on mechanical properties and anchorage performances of rock mass in the fault fracture zone, International Journal of Geomechanics, 2018, 18(7): 04018067. (SCI)
17. Qian Yin, Hongwen Jing, Guowei Ma, et al. Laboratory investigation of hydraulic properties of deformable rock samples subjected to different loading paths, Hydrogeology Journal, 2019, doi.org/10.1007/s10040-019-02015-x. (SCI)
18. Qian Yin, Hongwen Jing, Richeng Liu, et al. Pore characteristics and nonlinear flow behaviors of granite exposed to high temperature. Bulletin of Engineering Geology and the Environment, 2020, 79: 1239-1257. (SCI)
19. Qian Yin, Hongwen Jing, Richeng Liu, et al. Experimental study on stress-dependent nonlinear flow behavior and normalized transmissivity of real rock fracture networks, Geofluids, 2018, doi.org/10.1155/2018/8217921. (SCI)
20. Qian Yin, Lixin He, Hongwen Jing, et al. Quantitative estimates of nonlinear flow characteristics of deformable rough-walled fractures with various lithologies, Processes, 2018, 6(9): 1-14. (SCI)
21. Qian Yin, Hongwen Jing, Haijian Su. Investigation on mechanical behavior and crack coalescence of sandstone specimens containing fissure-hole combined flaws under uniaxial compression, Geosciences Journal, 2018, 22(5): 825-842. (SCI)
22. Qian Yin, Hongwen Jing, Guowei Ma. Experimental study on mechanical properties of sandstone specimens containing a single hole after high-temperature exposure. Geotechnique Letters, 2015, 5(1-3): 43-48. (SCI)
23. Qian Yin, Hongwen Jing, Haijian Su. CO2 permeability analysis of caprock containing a single fracture subject to coupled thermal-hydro-mechanical effects. Mathematical Problems in Engineering, 2017, 46: 1-13. (SCI)
24. Qian Yin, Hongwen Jing, Tantan Zhu. Mechanical behavior and failure analysis of granite specimens containing two orthogonal fissures under uniaxial compression. Arabian Journal of Geosciences, 2016 (SCI)
25. Qian Yin, Hongwen Jing, Dapeng Dai. Cable-truss supporting system for gob-side entry driving in deep mine and its application. International Journal of Mining Science and Technology, 2016, 26(5): 885-893. (EI)
26. Qian Yin, Hongwen Jing, Tantan Zhu. Experimental study on mechanical properties and cracking behavior of pre-cracked sandstone specimens under uniaxial compression. Indian Geotechnical Journal, 2016, 10: 1-15. (EI)
27. Lixin He, Qian Yin*, Hongwen Jing. Laboratory investigation of granite permeability after high-temperature exposure. Processes, 2018, 6(4): 1-14. (SCI)
28. Hongwen Jing, Qian Yin, Shengqi Yang, et al. Micro-mesoscopic creep damage evolution and failure mechanism of sandy mudstone. International Journal of Geomechanics, 2021, 21(3): 04021010. (SCI)
29. 尹乾, 靖洪文, 孟波, 等. 恒定法向剛度條件下三維粗糙裂隙面剪切力學特性, 岩石力學與工程學報, 2020, 39(11): 2213-2225. (EI)
30. 劉日成, 尹乾*, 楊瀚清, 等. 恒定法向剛度邊界條件下三維粗糙節理面循環剪切力學特性, 岩石力學與工程學報, 2021, 40(6): 1092-1109. (EI, 通訊作者)
31. 尹乾, 靖洪文, 孟波, 等. CNL和CNS邊界條件下砂岩宏細觀剪切力學特性, 采礦與安全工程學報, 2021, 38(3): 615-624. (EI)
32. 尹乾, 靖洪文, 劉日成. 不同側壓力系數下裂隙網絡岩體非線性滲流特性. 岩土力學, 2019, 40(2): 178-186. (EI)
33. 靖洪文, 尹乾, 朱棟. 深部巷道圍岩錨固結構失穩破壞全過程試驗研究, 煤炭學報, 2020, 45(03): 889-901. (EI)
34. 尹乾, 靖洪文, 蘇海健. 高溫後花崗岩斷裂特性的加載速率效應研究. 伟德官网bv學報, 2015, 44(4): 597-603. (EI)
35. 尹乾, 靖洪文, 蘇海健. 含縱向裂隙砂岩的強度劣化與加載速率效應. 采礦與安全工程學報, 2016, 33(1): 128-133. (EI)
36. 尹乾, 靖洪文, 蘇海健. 單軸壓縮下充填正交裂隙花崗岩強度及裂紋擴展演化. 伟德官网bv學報, 2016, 45(2): 225-232. (EI)
二、專著/軟著/專利
1. 尹乾, 靖洪文. 複雜受力狀态下裂隙岩體非線性滲透特性試驗研究. 伟德官网bv出版社. 2018. (專著)
2. 尹乾, 劉日成, 蔚立元, 李明. 複雜三維裂隙網絡滲流流态轉換及滲透系數預測數值軟件, 軟件著作, 2020SR0606691. (軟著)
3. 尹乾, 吳疆宇, 劉日成, 李明, 張元超. 三維粗糙裂隙面恒應力/恒剛度剪切數值模拟系統軟件, 軟件著作, 2020SR0605198. (軟著)
4. 尹乾, 劉日成, 靖洪文, 劉江峰, 蔚立元, 江鄭. 一種應力作用下深部硐室裂隙圍岩滲透試驗裝置及方法, 2021, CN112630121B. (發明專利)
5. 劉日成, 尹乾, 靖洪文, 蔚立元, 韓觀勝, 蔣宇靜. 一種用于裂隙網絡剪切滲流試驗裝置及其試驗方法, 2021, CN111829933B. (發明專利)
6. 尹乾, 張強, 鄧天慈, 吳疆宇, 劉日成, 靖洪文. 一種三維粗糙裂隙面卸荷誘發剪切滑移試驗裝置及方法, 2022, CN113686694B. (發明專利)
7. 尹乾, 吳疆宇, 江鄭, 張強, 靖洪文, 蘇海健, 蔚立元. 一種粗糙裂隙面層狀各項異性岩體剪切試驗裝置及方法, 2022, CN113686699B. (發明專利)
8. 吳疆宇, 尹乾, 馬丹, 陳洪生, 王逸鳴, 浦海. 一種堿激發高摻量尾泥泥磚及其制備方法, 2022, CN113582656B. (發明專利)
9. 尹乾, 靖洪文, 鄧天慈, 孟波, 張強, 吳疆宇, 蔚立元, 劉日成, 江鄭. Test device and method for unloading shear mechanical characteristics and deformation measurement of three-dimensional rock mass fracture network, 2022/03437. (南非發明專利)
三、獲得學術獎勵
1. 尹乾(R2), 深部軟岩隧(巷)道圍岩非線性災變演化及其穩定性控制機理, 江蘇省科學技術二等獎(基礎類), 2021
2. 尹乾(R4), 堅硬頂闆高應力巷道結構性大變形機理及穩定性控制技術, 山西省科技進步三等獎, 2021
3. 尹乾(R4), 堅硬頂闆高應力巷道結構性大變形機理及穩定性控制技術, 中國煤炭工業協會科技進步二等獎, 2021
4. 尹乾(1/1), 中國科協第六屆“青年人才托舉工程”項目, 中國科學技術協會, 2021
5. 尹乾(R6), 複雜應力環境厚煤層下分層複采大斷面煤巷穩定性控制關鍵技術研究, 中國煤炭工業協會科技進步二等獎, 2020
6. 尹乾(R6), 厚煤層分層複采強采動結構大變形巷道多尺度協同控制關鍵技術研究, 中國安全生産協會科技進步三等獎, 2021
7. 尹乾(R1), 徐州市自然科學優秀學術論文獎, 徐州市科學技術協會, 2020
8. 尹乾(R7), 含軟弱夾層極近距離特厚煤層開采巷道圍岩穩定控制關鍵技術, 中國煤炭工業協會科技進步三等獎, 2018
9. 尹乾, 江蘇省土木工程專業優秀畢業生(博士研究生), 2017
