用戶登錄

基本情況

姓  名:

孫振宇

職  務:

地下工程實驗室主任

職  稱:

副教授

學  曆:

學  位:

博士

通信地址:

北京市海澱區上園村3号

郵  編:

100044

辦公電話:

15201346126

電子郵箱:

zhenyus@bjtu.edu.cn

教育背景

  1. 2014/09-2020/07, 伟德这个平台怎么样,隧道與地下工程,博士
  2. 2010/09-2014/07, 伟德这个平台怎么样,土木工程, 學士

工作經曆

2020/09-2023/12, 伟德这个平台怎么样,伟德这个平台怎么样,講師

2024/01-至今, 伟德这个平台怎么样,伟德这个平台怎么样,副教授

研究方向

  • 隧道與地下工程

招生專業

  • 土木工程碩士

科研項目

1. 國家自然科學基金"青年基金": 高地應力軟岩大跨隧道錨固體系協同作用機理及評價方法, 2023-2025,主持
2. 國家自然科學基金“面上”: 隧道施工影響下地層與建築物結構接觸力學行為及動态作用機理, 2023-2026,參加
3. 鐵路總公司(原鐵道部): 基于變形主動控制的隧道圍岩支護體系協同作用機理研究, 2019-2022,參加
4. 國家重點研發計劃-項目: 超大埋深極高地應力隧道大變形演化機理及變形主動控制技術, 2021-2024,參加
5. 協同中心項目: 軌道交通運營隧道服役安全與智能維護, 2022-2026,參加
6. 國家自然科學基金“面上”: 富水地層隧道施工引起“橋樁-土體”力學響應機制及安全評價, 2022-2025,參加
7. 自然科學橫向項目: 管幕結構法下穿明城牆儀鳳門段建設關鍵技術研究, 2020-2024,參加

教學工作

大學生實用寫作

論文/期刊

  以第一/通訊作者發表中科院二區SCI論文20篇,EI論文10篇(全部為第一作者)。
  1. Sun, Z., Zhang, D., Wang, J., Hou, Y. Analytical approach for the design of composite linings in deep tunnels considering the blasting damaged zone. Tunnelling and Underground Space Technology, 2024,147, 105695.(中科院一區TOP,IF = 6.9)
  2. Sun, Z., Zhang, D., Liu, D., Tai, Q., Hou, Y. Insights into the ground response characteristics of shallow tunnels with large cross-section using different pre-supports. International Journal of Rock Mechanics and Mining Sciences, 2024, 175, 105663.(中科院一區TOP,IF = 7.2)
  3. Sun, Z., Zhang, D., Li, M., Guo, F. Large deformation characteristics and the countermeasures of a deep-buried tunnel in layered shale under groundwater.Tunnelling and Underground Space Technology, 2024, 144, 105575.(中科院一區TOP,IF = 6.9)
  4. Sun, Z., Zhang, D., Fang, Q., Wang, J., Chu, Z., Hou, Y. Analysis of interaction between tunnel support system and surrounding rock for underwater mined tunnels considering the combined effect of blasting damage and seepage pressure. Tunnelling and Underground Space Technology, 2023,141, 105314.(中科院一區TOP,IF = 6.9)
  5. Sun, Z., Zhang, D., Fang, Q. Technologies for large cross-section subsea tunnel construction using drilling and blasting method. Tunnelling and Underground Space Technology, 2023,141, 105161.(中科院一區TOP,IF = 6.9)
  6. Sun, Z., Zhang, D., Fang, H., Hong X. Generalized complex variable analysis of shallow tunneling through multi-layered ground. Applied Mathematical Modelling, 2024, 230-259.(中科院一區TOP,IF = 5.0)
  7. Sun, Z., Zhang, D., Hou, Y., Huangfu, N., Li, M.Y., Guo, F.L., Support Countermeasures for Large Deformation in a Deep Tunnel in Layered Shale with High Geostresses. Rock Mechanics and Rock Engineering, 2023, 56, 4463–4484.(中科院一區TOP,IF = 6.2)
  8. Sun, Z., Zhang, D., Fang, Q., Huangfu, N., Chu, Z. Convergence-confinement analysis for tunnels with combined bolt–cable system considering the effects of intermediate principal stress. Acta Geotechnica. 2023, 18, 3323-3348.(中科院一區TOP,IF = 5.7)
  9. Sun, Z., Zhang, D., Li, A., Lu, S., Tai, Q., Chu, Z. Model test and numerical analysis for the face failure mechanism of large cross-section tunnels under different ground conditions, Tunnelling and Underground Space Technology, 2022, 130, 104735.(中科院一區TOP,IF = 6.9)
  10. Sun, Z., Zhang, D., Fang, Q., Dui, G., Chu, Z. Analytical solutions for deep tunnels in strain-softening rocks modeled by different elastic strain definitions with the unified strength theory. Science China Technological Sciences, 2022, 65, 2503-2519.(中科院二區,ESI高被引,IF = 4.6)
  11. Sun, Z., Zhang, D., Fang, Q., Liu, D., Dui, G. Displacement process analysis of deep tunnels with grouted rockbolts considering bolt installation time and bolt length. Computers and Geotechnics, 2021, 140, 104437.(中科院一區TOP,IF = 5.3)
  12. Sun, Z., Zhang, D., Fang, Q., Dui, G. Tai, Q., Sun, F. Analysis of the interaction between tunnel support and surrounding rock considering pre-reinforcement. Tunnelling and Underground Space Technology, 2021, 115, 104074.(中科院一區TOP,IF = 6.9)
  13. Sun, Z., Zhang, D., Fang, Q., Hou Y., Huangfu N., Analysis of the interaction between bolt-reinforced rock and surface support in tunnels based on convergence-confinement method. Journal of Rock Mechanics and Geotechnical Engineering, 2024.(中科院一區TOP,IF = 7.3)
  14. Sun, Z.Y., Zhang, D.L., Xu, T., Chen, X., Formation estimation and evolution mechanism of the pressure arch for non-circular tunnels under asymmetrical stress field. Science China Technological Sciences, 2024, 67, 2919-2938.(中科院二區,IF = 4.4)
  15. Luo, J., Zhang, D., Sun, Z.*, Fang, Q., Liu, D., Xu, T., Li, R. Numerical modelling and field monitoring study on large-span tunnelling using pretensioned bolt-cable combined support system. Tunnelling and Underground Space Technology, 2023, 132, 104911.(中科院一區TOP,IF = 6.9,通訊作者)
  16. Sun, F.W., Sun, Z.Y.*, Zhang, D.L., Li, M.Y., Large-scale model test and numerical analysis of load-bearing arch characteristics of large cross-section tunnel under high geostress. Engineering Failure Analysis, 2024, 163, 108600.(中科院一區,IF = 4.4,通訊作者)
  17. Hong, X., Zhang, D., Sun, Z.*. Mechanical responses of multi-layered ground due to shallow tunneling with arbitrary ground surface load. Frontiers of Structural and Civil Engineering. 2023, 17(5): 745-762.(中科院二區,IF = 3,通訊作者)
  18. Zhang, D., Sun, Z.*, Fang, Q. Scientific problems and research proposals for Sichuan-Tibet railway tunnel construction. Underground Space, 2022, 7(3), 419-439.(中科院二區,ESI高被引,IF = 6.4,通訊作者)
  19. Lu, S., Sun, Z.*, Zhang, D., Liu, C., Wang, J., Huangfu, N., Numerical modelling and field observations on the failure mechanisms of deep tunnels in layered surrounding rock. Engineering Failure Analysis, 2023, 153, 107598.(中科院二區,IF = 4,通訊作者)
  20. Hong, X., Zhang, D.*, Zhou, M., Fang, Q., Hou, Y., Fang, H., Sun, Z.*. Approximate analytical solution of tunneling-induced responses of a soil-foundation system using contact mechanics. International Journal for Numerical and Analytical Methods in Geomechanics, 2022, 46(18), 3442-3464. (中科院二區,IF = 4,通訊作者)
  21.  孫振宇,孟令贊,張頂立,等. 粘彈性圍岩隧道縱向變形曲線與虛拟支護力解析 [J]. 工程科學與技術, 1-15. EI檢索
  22.  孫振宇,張頂立,劉道平,等. 錨固體系作用下隧道圍岩力學響應的全過程解析 [J]. 工程力學, 2022, 39 (07): 170-182. EI檢索
  23. 孫振宇,張頂立.基于地層加固的海底隧道極限頂闆厚度确定方法.土木工程學報,2020,53(9):115-128.(EI檢索
  24. 孫振宇,張頂立,房倩,粟威.淺埋小淨距公路隧道圍岩壓力分布規律.中國公路學報,2018,31(9):84-94.(EI檢索
  25. 孫振宇,張頂立,房倩,台啟民,于富才.基于超前加固的深埋隧道圍岩力學特性研究.工程力學,2018,35(2):92-104.(EI檢索)
  26. 孫振宇,張頂立,侯豔娟.隧道複合支護結構協同作用的力學特性研究.鐵道學報,2019,41(8):131-142.(EI檢索
  27. 孫振宇,張頂立,房倩.隧道錨固系統的協同作用及設計方法.工程力學,2019,36(5):53-66.(EI檢索
  28. 孫振宇,張頂立,房倩,侯豔娟.隧道支護結構體系協同優化設計方法及其應用.岩土工程學報,2021,43(3):530-539.(EI檢索
  29. 孫振宇,張頂立,侯豔娟,李奧.基于現場實測數據統計的隧道圍岩全過程變形規律及穩定性判據确定.岩土工程學報,2021,43(7):1261-1270.(EI檢索
  30. 孫振宇,張頂立,房倩,台啟民,于富才.隧道初期支護與圍岩相互作用的時空演化特性.岩石力學與工程學報,2017,36(s2):3943-3956.(EI檢索
  31. 張頂立,孫振宇,陳鐵林.海底隧道複合注漿技術及其工程應用.岩石力學與工程學報,2019,38(6):1102-1116.(EI檢索
  32. 張頂立,孫振宇,侯豔娟.隧道支護結構體系及其協同作用.力學學報,2018,51(02):577-593.(EI檢索
  33. 張頂立,孫振宇.海底隧道主動控制式防排水系統及其設計方法.岩石力學與工程學報,2019,38(01):1-17.(EI檢索
  34. 張頂立,孫振宇,宋浩然,方黃城.海底隧道突水演化機制與過程控制方法.岩石力學與工程學報,2020,39(04):649-667.(EI檢索
  35. 張頂立,方黃城,陳立平,孫振宇.隧道支護結構體系的剛度設計理論.岩石力學與工程學報,2021,40(04):649-662.(EI檢索
  36. 洪學飛,張頂立,方黃城,房倩,周墨臻,侯豔娟,孫振宇.隧道開挖影響下地層-基礎體系的接觸力學響應分析.力學學報,2021,53(8):2298-2311.(EI檢索
  37. 彭鵬,張頂立,孫振宇.含軟弱夾層隧道圍岩變形特性與加固參數設計方法.岩石力學與工程學報,2021,11(40):2260-2272.(EI檢索
  38. 李然,張頂立,房倩,劉道平,孫振宇,徐曈.深埋3孔小淨距隧道圍岩壓力計算方法及其工程應用.中國鐵道科學,2020,41(02):81-90.(EI檢索
  39. 李奧,張頂立,房倩,孫振宇,曹利強,劉道平,闫文發.基于微震監測的高速鐵路大跨度過渡段隧道開挖損傷區分布特性及演化規律.中國鐵道科學,2020,41(02):53-62.(EI檢索
  40. 于富才,張頂立,房倩,孫振宇,台啟民,趙江濤.隧道圍岩變形及支護剛度三維分析模型研究.西南交通大學學報,2017,52(4):738-745,763.(EI檢索
  41. 張頂立,孫振宇.複雜隧道圍岩結構穩定性及其控制.水力發電學報,2018,37(02):1-11.(中文核心
  42. 張頂立,孫振宇.高速鐵路隧道關鍵科學問題及發展趨勢.鐵道建築,2018,58(11):1-4.(中文核心

專著/譯著

專利

  1. 孫振宇,張頂立,侯豔娟,房倩. 一種基于安全儲備系數的隧道二次襯砌設計方法及系統. (ZL201910710540.1)
  2. 孫振宇,張頂立,房倩,侯豔娟.一種用于海域段海底隧道的海床安全性管理方法及系統.(ZL201910822097.7)
  3. 張頂立,孫振宇.一種基于圍岩結構性的隧道錨固體系設計方法及系統.(ZL201811036902.5)
  4. 張頂立,孫振宇,方東平.一種海底隧道主動控制式防排水體系設計方法及系統.(ZL201810845980.3)
  5. 張頂立,孫振宇.一種海底隧道複合注漿參數的确定方法及系統.(ZL201811423287.9)
  6. 張頂立,孫振宇.一種隧道支護結構體系協同設計方法及系統(ZL201810809880.5)

軟件著作權

獲獎與榮譽

2017.10 中國岩石力學與工程學會科學技術進步獎一等獎(14/15)

2019.11 中國公路學會科技進步特等獎(13/25)

2022.07 城市軌道交通科技進步一等獎(10/20)

社會兼職

鐵道勘察》編委

《工程科學與技術》青年編委

《交通科學與工程》青年編委

中國城市科學研究會地下空間專委會 委員

Baidu
sogou