史江偉

發布時間:2017-09-11

    史江偉,江蘇句容人,博士,副教授,碩士生導師,入選江蘇省“雙創博士計劃”和河海大學“大禹學者計劃”。主要從事城市地下空間開發和利用、廢棄土資源化利用的教學科研工作。主持國家自然科學基金(面上、青年)、江蘇省自然科學基金(青年)、中國博士後科學基金(面上、特助)、江蘇省博士後基金等10餘項縱向科研項目。發表期刊論文60餘篇,第一/通訊作者SCI論文28篇(一作19篇)、EI論文8篇(一作5篇),其中岩土工程領域主流期刊《Journal of Geotechnical and Geoenvironmental Engineering》、《Canadian Geotechnical Journal》、《Tunnelling and Underground Space Technology》、《Computers and Geotechnics》、《岩土力學》和《岩土工程學報》論文30餘篇。論文被引用1700餘次,H指數和H10指數分别為2328。研究成果獲中國航海學會科技進步二等獎、江蘇省地下空間學會科技進步一等獎、美國土木工程師協會(ASCE)和中國土木工程協會優秀論文獎等。


工作經曆:

2018.07—至今:河海大學,伟德 官网,岩土工程科學研究所,副教授

2015.09—2018.06:河海大學,伟德 官网,岩土工程科學研究所,講師

2015.02—2015.08:香港科技大學,土木與環境工程系,訪問學者


研究方向:

地下空間開發和利用、土—結構相互作用、廢棄土資源化利用


主講課程:

本科生:《土質學與土力學》、《土力學實驗》、《堤防與邊坡工程》

研究生(全英文):《Advanced Foundation Engineering》、《土木工程學科前言專題講座》


主持的科研項目:

  1. 國家自然科學基金面上項目(52478394),2025~2028在研

  2. 國家自然科學基金青年項目(516081702017~2019,結題

  3. 江蘇省自然科學基金青年項目(BK20160863),2016~2019,結題

  4. 江蘇省“雙創博士”(世界名校類)自由探索項目,2017~2019,結題

  5. 中國博士後科學基金特别資助項目(2017T100324),2017~2019,結題

  6. 中國博士後科學基金面上項目(2016M601709),2016~2018,結題

  7. 江蘇省博士後科學基金項目(1601074C),2016~2017,結題

  8. 廣西防災減災與工程安全重點實驗室開發基金(2020ZDK013),2020~2021,結題

  9. 橫向課題:瓯江路道路及景觀改造提升工程望江路下穿段基坑工程對鄰近建築物影響的三維有限元數值分析, 2023.10~2024.10結題

  10. 橫向課題:深厚軟基多用途大面積堆場就地固化關鍵技術研究, 2021~2022,結題

  11. 橫向課題:獅子坪水電站心牆消缺處理方案三維應力變形研究, 2021~2021,結題

  12. 橫向課題:超高含水率泥炭土地基處理關鍵技術研究與應用, 2019~2021,結題

  13. 橫向課題:溫州市九山A-11地塊三維有限元分析服務, 2020~2021,結題

  14. 橫向課題:魚山石化圍墾對魚山大橋影響補充分析, 2019~2020,結題


獲獎及榮譽:

  1. 2021年 中國航海學會科技進步二等獎(6/10

  2. 2023年 江蘇省地下空間學會科技進步一等獎(6/15

  3. 2016年 江蘇省“雙創計劃”雙創博士

  4. 2011年 江蘇省優秀碩士學位論文

  5. 2017年 河海大學“大禹學者計劃”

  6. 2018ASCE Outstanding Paper Award

  7. 2024年 河海大學優秀班導師

  8. 2024年 河海大學第伟德 官网“我最喜愛的班導師”


代表性SCI/EI論文:

Scopus Profilehttps://www.scopus.com/authid/detail.uri?authorId=55491865300

Google Scholarhttps://scholar.google.com.hk/citations?hl=zh-CN&user=Dke9yaQAAAAJ

  1. Shi, J.W., Zhong, X.C., Lu, H., Ni, X.D., and Shi, C. (通訊). Influence of joint stiffness on three-dimensional deformation mechanisms of pipeline under tunnel active face instability. Canadian Geotechnical Journal 2024 (online). https://doi.org/10.1139/cgj-2024-0092

  2. Shi, J.W., Chen, Y.H., Kong, G.Q., Lu, H. (通訊), Chen, G. (通訊), and Shi, C. Deformation mechanisms of an existing pipeline due to progressively passive instability of tunnel face: physical and numerical investigations. Tunnelling and Underground Space Technology 2024, 150: 105822.

  3. Shi, J.W., Wang, J.P. (學生), Chen, Y.H., Shi, C., Lu, H., Ma, S.K. (通訊), and Fan, Y.B. (學生). Physical modeling of the influence of tunnel active face instability on existing pipelines. Tunnelling and Underground Space Technology, 2023, 140, 105281.

  4. Shi, J.W., Wang, J.P. (學生), Ji, X.J., Liu, H.Q., and Lu, H. (通訊). Three-dimensional numerical parametric study of tunneling effects on existing pipelines. Geomechanics and Engineering, 2022, 30(4): 383-392.

  5. Shi, J.W., Chen Y.H., Lu, H.(通訊), Ma, S.K., and Ng, C.W.W. Centrifuge modeling of the influence of joint stiffness on pipeline response to underneath tunnel excavation. Canadian Geotechnical Journal, 2022, 59(9): 1568-1586.

  6. Shi, J.W., Wei, J.Q., Ng, C.W.W., Lu, H.(通訊), Ma, S.K., Shi, C., and Li P. Effects of construction sequence of double basement excavations on an existing floating pile. Tunnelling and Underground Space Technology, 2022, 119, 104230.

  7. Shi, J.W., Ding C. (學生), Ng, C.W.W., Lu, H.(通訊) and Chen L. Effects of overconsolidation ratio on tunnel responses due to overlying basement excavation in clay. Tunnelling and Underground Space Technology, 2020, 7:103247.

  8. Shi, J.W., Wei, J.Q., Ng, C.W.W., Lu, H. (通訊). Stress transfer mechanisms and settlement of a floating pile due to adjacent multi-propped deep excavation in dry sand. Computers and Geotechnics, 2019, 116, 103216. (SCI).

  9. Shi, J.W., Fu, Z.Z., Guo, W.L. (通訊). Investigation of geometric effects on three-dimensional tunnel deformation mechanisms due to basement excavation. Computers and Geotechnics, 2019, 106: 108-116 (SCI).

  10. Shi, J.W., Wang, Y., Chen, Y.H. (通訊). A simplified method to estimate curvatures of continuous pipelines induced by normal fault movement. Canadian Geotechnical Journal, 2018, 55(3):343-352. (SCI).

  11. Shi, J.W.,Zhang, X. (學生), Chen, Y.H. (通訊), Chen, L. Numerical parametric study of countermeasures to alleviate basement excavation effects on an existing tunnel. Tunnelling and Underground Space Technology, 2018, 72: 145-153. (SCI).

  12. Shi, J.W., Zhang, Y.T., Chen, L. (通訊), Fu, Z.Z. Response of a laterally loaded pile group due to cyclic loading in clay. Geomechanics and Engineering, 2018, 16(5):463-469. (SCI).

  13. Shi, J.W. (通訊), Ng, C.W.W., Chen, Y.H. A simplified method to estimate three-dimensional tunnel responses to basement excavation. Tunnelling and Underground Space Technology, 2017, 62: 53-63.

  14. Shi, J.W. (通訊), Wang, Y., Ng, C.W.W. Three-dimensional centrifuge modeling of ground and pipeline response to tunnel excavation. Journal of Geotechnical and Geoenvironmental Engineering, ASCE, 2016, 142(11): 04016054. (SCI).

  15. Shi, J.W. (通訊), Wang, Y., Ng, C.W.W. Numerical parametric study of tunneling–induced joint rotation angle in jointed pipelines. Canadian Geotechnical Journal, 2016, 53(12): 2058-2071. (SCI).

  16. Shi, J.W. (通訊), Ng, C W.W., Chen, Y.H. Three-dimensional numerical parametric study of the influence of basement excavation on existing tunnel. Computers and Geotechnics, 2015, 63:146-158. (SCI).

  17. Shi, J.W. (通訊), Liu, G.B., Huang, P., Ng, C.W.W. Interaction between a large triangular excavation and adjacent structures in Shanghai soft clay. Tunnelling and Underground Space Technology, 2015, 50: 282-295. (SCI).

  18. Shi, J.W., Wang, Y. (通訊), Ng, C.W.W. Buried pipeline responses to ground displacements induced by adjacent static pipe bursting. Canadian Geotechnical Journal, 2013, 50(5): 481-492. (SCI).

  19. Lu, H., Shi, J.W., Shi, C. (通訊), Pei, W.W., and Chen, S.M. Assessment of twin tunnelling induced settlement and load transfer mechanisms of a single pile in dry sand. Canadian Geotechnical Journal, 2024, 61(5), 1004-1017.

  20. Lu, H., Shi, J.W. (通訊), Ng, C.W.W., Lv, Y.R. 2020. Three-dimensional centrifuge modeling of the influence of side-by-side twin tunneling on a piled raft. Tunnelling and Underground Space Technology, 2020, 103: 103486. (SCI).

  21. Ng, C.W.W., Shi, J.W. (通訊), Mašín, D., Sun, H.S., Lei, G.H. Influence of sand density and retaining wall stiffness on three-dimensional responses of tunnel to basement excavation. Canadian Geotechnical Journal, 2015, 52(11):1811-1829. (SCI).

  22. Ng, C.W.W., Shi, J.W. (通訊), Hong, Y. Three-dimensional centrifuge modelling of basement excavation effects on an existing tunnel in dry sand. CanadianGeotechnical Journal, 2013, 50(8): 874-888. (SCI).

  23. Wang, Y. (通訊), Shi, J.W., Ng, C.W.W. Numerical modeling of tunnelingeffect on buried pipelines. Canadian Geotechnical Journal, 2011, 48(7): 1125-1137. (SCI).

  24. Lu, H., Shi, J.W. (通訊), Wang, Y., Wang, R. Centrifuge modeling of tunneling-induced ground surface settlement in sand. Underground space, 2019, 4:302-309. (SCI).

  25. Liu, G.B., Huang, P., Shi, J.W. (通訊), Ng, C.W.W. Performance of a deep excavation and its effects on adjacent tunnels in Shanghai soft clay. Journal of Performance of Constructed Facilities, ASCE, 2016, 30(6): 04016041. (SCI).

  26. Cai, Q.P., Peng, J.M., Ng, C.W.W., Shi, J.W. (通訊), Chen, X.X. Centrifuge and numerical modeling of tunnel intersected by normal fault rupture in sand. Computers and Geotechnics, 2019, 106: 108-116 (SCI).

  27. Ng, C.W.W., Sun, H.S., Lei, G.H., Shi, J.W. (通訊), Mašín, D. Ability of three different soil constitutive models to predict a tunnel’s response to basement excavation. Canadian Geotechnical Journal, 2015, 52(11):1685-1698. (SCI).

  28. Ni, X., Lu, J., Wang, Y., Shi, J.W. (通訊), Chen, W.C., and Tang, L. Field investigation of the influence of basement excavation and dewatering on ground and structure responses. Tunnelling and Underground Space Technology, 2021, 117: 104121.(SCI).

  29. 史江偉, 王金樸 (學生). 盾構開挖面失穩下既有管線三維變形特性研究. 地下空間與工程學報, 2024CSCD錄用).

  30. 史江偉, 朱浩 (學生), 陳永輝, 王榮. 無機填料對水泥固化泥炭土強度的影響. 建築材料學報, 2024(05): 439-445. (EI)

  31. 史江偉(通訊),範燕波 (學生),裴偉偉,陳永輝,張顯. 盾構下穿非連續管線變形特性及預測方法研究[J]. 岩土力學, 2021: 42(01): 143-150 (EI).

  32. 丁楚 (學生) 餘文瑞, 史江偉(通訊), 張宇亭, 陳永輝. 水平循環荷載下樁基變形特性的離心模型試驗研究 [J]. 岩土力學, 2020, 41(8): 2659-2664. (EI).

  33. 史江偉(通訊), 陳麗. 不均勻土體位移引起既有地下管線彎曲變形研究[J]. 岩土力學, 2017, 38(4): 1164-1170. (EI).

  34. 朱俊高*, 史江偉, 羅學浩, 徐佳成. 密度對砂土應力應變強度特性影響試驗研究[J]. 岩土工程學報, 2016, 38(2):336-341. (EI).

  35. 史江偉, 朱俊高 (通訊), 張丹.橢圓-抛物雙屈服面模型參數靈敏度分析[J]. 岩土力學, 2011, 32 (1): 70-76. (EI).

  36. 史江偉, 陳麗. 圓形基坑開挖引起下卧隧道三維變形機理研究[J]. 地下空間與工程學報, 2018, 14(4): 1083-1090. (CSCD).

  37. 範燕波(學生), 陳麗, 史江偉 (通訊), 丁楚, 張顯. 砂土地層深基坑開挖引起下卧隧道變形機理研究[J]. 現代隧道技術. 2021, 58(02): 103-110.


研究生培養:

2023級(碩):呂開宇

2022級(碩):朱  浩(發表EI論文1篇,獲國家獎學金)

2021級(碩):王金樸(發表SCI論文2篇,CSCD論文1篇)

2018級(碩):丁  楚(發表SCIEI論文各1篇,獲國家獎學金)

範燕波(發表EICSCD論文各1篇)

2017級(碩):張  顯(發表SCI論文2篇,獲國家獎學金、錢家歡獎學金、河海大學優秀畢業研究生)

聯系方式:

地址:江蘇省南京市西康路1号伟德 官网科學館1111

電子郵件: ceshijiangwei@163.com


Baidu
sogou