朱合華，1962年10月生。1989年10月獲得同濟大學結構工程專業(yè)（地下結構方向）工學博士學位。現(xiàn)為同濟大學特聘教授、國家注冊土木(巖土)工程師，兼任教育部土木信息技術工程研究中心主任、同濟大學隧道及地下建筑工程學科方向負責人。

30多年來一直從事隧道與地下空間領域的教學和科研工作，曾入選國家973項目首席科學家。研究成果“軟土盾構隧道設計理論與施工控制技術及應用”獲2008年度國家科技進步獎二等獎；“城市高密集區(qū)大規(guī)模地下空間建造關鍵技術及其集成示范”獲2016年度國家科技進步獎二等獎；另獲省部級和一級學會的科技成果特等獎2項、一等獎10項。主參編行業(yè)和團體技術標準5部，授權發(fā)明專利50余件，出版專著7部，在國內(nèi)外學術期刊發(fā)表高水平論文380余篇，創(chuàng)辦國際學術期刊Underground Space(SCIE收錄)。獲科技部“十一五”科技計劃執(zhí)行突出貢獻獎、全國優(yōu)秀科技工作者、上海市教學名師等榮譽。2012年獲卞學鐄國際學術貢獻獎，2015年獲德國“洪堡研究獎”。

朱合華在2018全國巖土工程師論壇上做報告

朱合華作學術報告

朱合華教授在第二屆中歐隧道建造技術高峰論壇上作報告

朱合華

朱合華暢談治學之路與人生之道

• 科研綜述

• 學術論著&技術標準

1. 1.
   Zhu HH, Chen PP, Zhuang XY, et al. Assessment and and structural improvement on the performance of soil chamber system of EPB shield assisted with DEM modeling[J]. Tunnelling and Underground Space Technology, 2020, 96, 103092.
2. 2.
   Chen Q, Zhu HH, Ju JW, et al. Stochastic micromechanical predictions for the probabilistic behavior of saturated concrete repaired by the electrochemical deposition method[J]. International Journal of Damage Mechanics, 2020, 29(3): 435-453.
3. 3.
   Wang X, Wu W, Zhu HH, et al. The last entrance plane method for contact indeterminacy between convex polyhedral blocks[J]. Computers and Geotechnics, 2020, 117, 103283.
4. 4.
   Wu W, Wang X, Zhu HH, et al. Improvements in DDA program for rockslides with local in-circle contact method and modified open-close iteration[J]. Engineering Geology, 2020, 265, 105433.
5. 5.
   Li XJ, Chen ZY, Chen JQ, Zhu HH. Automatic characterization of rock mass discontinuities using 3D point clouds[J]. Engineering Geology, 2019, 259, 105131.
6. 6.
   Zhou L, Zhu HH, Yan ZG, et al. Experimental testing on ductile-iron joint panels for high-stiffness segmental joints of deep-buried drainage shield tunnels[J]. Tunnelling and Underground Space Technology, 2019, 87: 145-159.
7. 7.
   Zhou S, Vu-Bac N, Arash B, Zhu HH, et al. Interface Characterization Between Polyethylene/Silica in Engineered Cementitious Composites by Molecular Dynamics Simulation[J]. Molecules, 2019, 24(8): 1497.
8. 8.
   Chen XQ, Li XJ, Zhu HH*. Condition evaluation of urban metro shield tunnels in Shanghai through multiple indicators multiple causes model combined with multiple regression method[J]. Tunnelling and Underground Space Technology, 2019, 85: 170-181.
9. 9.
   Chen XQ, Dong Q, Zhu HH, et al. Contributions of condition measurements on the latent pavement condition by confirmatory factor analysis[J]. Transportmetrica A-Transport Science, 2019, 15(1): 2-17.
10. 10.
    Zhang Q, Huang BQ, Zhu HH, et al. Quantitative assessments of the correlations between rock mass rating (RMR) and geological strength index (GSI)[J]. Tunnelling and Underground Space Technology, 2019, 83: 73-81.
11. 11.
    Chen XQ, Zhu HH, Li XJ, et al. Probabilistic performance prediction of shield tunnels in operation through data mining[J]. Sustainable Cities and Society, 2019, 44: 819-829.
12. 12.
    Zhang Q, Zhu HH. Collaborative 3D geological modeling analysis based on multi-source data standard[J]. Engineering Geology, 2018, 246: 233-244.
13. 13.
    Chen Q, Zhu HH*, Ju J W, et al. Stochastic micromechanical predictions for the effective properties of concrete considering the interfacial transition zone effects[J]. International Journal of Damage Mechanics, 2018, 27(8): 1252-1271.
14. 14.
    Chen Q, Zhu HH, Ju JW, et al. A stochastic micromechanical model for fiber-reinforced concrete using maximum entropy principle[J]. Acta Mechanica, 2018, 229(7): 2719-2735.
15. 15.
    Cai Y, Sun P, Zhu HH, et al. A mixed cover meshless method for elasticity and fracture problems[J]. Theoretical and Applied Fracture Mechanics, 2018, 95: 73-103.
16. 16.
    Zhu HH, Zhang GC, Cai YC. Locking-free triangular plate element using polynomial incompatible approximation for analysis of cracked thick–thin plates[J]. International Journal of Fracture, 2018, 211(1-2): 1-12.
17. 17.
    Wu W, Zhu HH*, Lin JS, et al. Tunnel stability assessment by 3D DDA-key block analysis[J]. Tunnelling and Underground Space Technology, 2018, 71: 210-214.
18. 18.
    Zhu HH, Zhang Q, Huang BQ, et al. A constitutive model based on the modified generalized three-dimensional Hoek–Brown strength criterion[J]. International Journal of Rock Mechanics & Mining Sciences, 2017, 98:78-87.
19. 19.
    Cai YC, Zhu HH*. A locking‐free nine‐DOF triangular plate element with incompatible approximation[J]. International Journal for Numerical Methods in Engineering, 2017, 109(7).
20. 20.
    Zhu HH, Wu W, Zhuang XY, et al. Method for Estimating Normal Contact Parameters in Collision Modeling Using Discontinuous Deformation Analysis:[J]. International Journal of Geomechanics, 2016, 17(5):E4016011.
21. 21.
    Zhuang XY, Wang Q, Zhu HH*. Multiscale modelling of hydro-mechanical couplings in quasi-brittle materials[J]. International Journal of Fracture, 2016:1-27.
22. 22.
    Zhu HH, Zhou S, Yan ZG, Ju JW, and Chen Q. A two-dimensional micromechanical damage-healing model on microcrack-induced damage for microcapsule-enabled self-healing cementitious composites under compressive loading[J].International Journal of Damage Mechanics, 2016：25(5), 727-749.
23. 23.
    Zhu HH, Wu W, Chen JQ, Ma GW, Liu XG, and Zhuang XY. Integration of three dimensional discontinuous deformation analysis (DDA) with binocular photogrammetry for stability analysis of tunnels in blocky rockmass[J].Tunnelling and Underground Space Technology, 2016：51, 30-40.
24. 24.
    Zhu HH, Wang Q, Zhuang XY. A nonlinear semi-concurrent multiscale method for dynamic fractures[J]. International Journal of Impact Engineering, 2015, 87:65-82.
25. 25.
    Chen JQ, Zhu HH, Li XJ. Automatic extraction of discontinuity orientation from rock mass surface 3D point cloud[J]. Computers & Geosciences, 2016, 95:18-31.
26. 26.
    Zhu HH, Zhou S, Yan ZG, et al. A 3D analytical model for the probabilistic characteristics of self-healing model for concrete using spherical microcapsule[J]. Computers & Concrete, 2015, 15(1):37-54.
27. 27.
    Zhu HH, Zhou S, Yan ZG, et al. A two-dimensional micromechanical damage-healing model on microcrack-induced damage for microcapsule-enabled self-healing cementitious composites under tensile loading[J]. International Journal of Damage Mechanics, 2015, 24(1):95-115.
28. 28.
    Zhu HH, Chen Q, Ju JW, et al. Maximum entropy-based stochastic micromechanical model for a two-phase composite considering the inter-particle interaction effect[J]. Acta Mechanica, 2015, 226(9):3069-3084.
29. 29.
    Chen Q, Zhu HH*, Ju JW, et al. A stochastic micromechanical model for multiphase composites containing spherical inhomogeneities[J]. Acta Mechanica, 2015, 226(6):1861-1880.
30. 30.
    Zhuang XY, Wang Q, Zhu HH*. A 3D computational homogenization model for porous material and parameters identification[J]. Computational Materials Science, 2015, 96:536-548.
31. 31.
    Yan ZG, Shen Y, Zhu HH*, et al. Experimental investigation of reinforced concrete and hybrid fibre reinforced concrete shield tunnel segments subjected to elevated temperature[J]. Fire Safety Journal, 2015, 71(3):86-99.
32. 32.
    Zhu HH, Zuo YL, Li XJ, et al. Estimation of the fracture diameter distributions using the maximum entropy principle[J]. International Journal of Rock Mechanics & Mining Sciences, 2014, 72(72):127-137.
33. 33.
    Zhu HH, Chen Q, Yan ZG, et al. Micromechanical models for saturated concrete repaired by the electrochemical deposition method[J]. Materials & Structures, 2014, 47(6):1067-1082.
34. 34.
    Zhu HH, Ye B, Cai YC, et al. An elasto-viscoplastic model for soft rock around tunnels considering overconsolidation and structure effects[J]. Computers & Geotechnics, 2013, 50(50):6-16.
35. 35.
    Yan ZG, Zhu HH*, Ju JW. Behavior of reinforced concrete and steel fiber reinforced concrete shield TBM tunnel linings exposed to high temperatures[J]. Construction & Building Materials, 2013, 38(2):610-618.
36. 36.
    Zhuang XY, Zhu HH*, Augarde C. An improved meshless Shepard and least squares method possessing the delta property and requiring no singular weight function[J]. Computational Mechanics, 2014, 53(2):343-357.
37. 37.
    Li XJ, Li PN, Zhu HH*. Coal seam surface modeling and updating with multi-source data integration using Bayesian Geostatistics[J]. Engineering Geology, 2013, 164(4):208-221.
38. 38.
    Zhu HH, Zhuang XY, Cai YC. High rock slope stability analysis using the enriched meshless Shepard and least squares method[J]. International Journal of Computational Methods, 2011, 8(2): 209-228.
39. 39.
    Xu QW, Zhu HH*, Ding WQ, et al. Laboratory model tests and field investigations of EPB shield machine tunnelling in soft ground in Shanghai[J]. Tunnelling and Underground Space Technology, 2011, 26(1):1-14.
40. 40.
    Zhu HH, Cai YC, Paik JK, et al. Locking-free thick-thin rod/beam element based on a von Kármán type nonlinear theory in rotated reference frames for large deformation analyses of space-frame structures[J]. Computer Modeling in Engineering & Sciences, 2010, 57(2):175-204.
41. 41.
    Zhu HH, Liu WJ, Cai YC, et al. A meshless local natural neighbor interpolation method for two-dimension incompressible large deformation analysis[J]. Engineering Analysis with Boundary Elements, 2007, 31(10): 856-862.
42. 42.
    Zhang LY, Zhu HH. Three-Dimensional Hoek-Brown Strength Criterion for Rocks[J]. Journal of Geotechnical & Geoenvironmental Engineering, 2007, 133(9):1128-1135.
43. 43.
    周龍, 閆治國, 朱合華等. 深埋排水盾構隧道鋼纖維混凝土高剛性接頭受力特性試驗研究[J]. 建筑結構學報, 2020, 41(4): 177-183+190.
44. 44.
    朱合華, 丁文其, 喬亞飛等. 簡析我國城市地下空間開發(fā)利用的問題與挑戰(zhàn)[J]. 地學前緣, 2019, 26(3): 22-31.
45. 45.
    朱合華, 周龍, 朱建文. 管片襯砌梁–彈簧廣義模型及接頭轉(zhuǎn)動非線性模擬[J]. 巖土工程學報, 2019, 41(9): 1581-1590.
46. 46.
    朱合華, 李曉軍, 林曉東. 基礎設施智慧服務系統(tǒng)(iS3)及其應用[J]. 土木工程學報, 2018, 51(1): 6-17.
47. 47.
    朱合華,武威,李曉軍,陳建琴,黃賢斌. 基于 iS3 平臺的巖體隧道信息精細化采集、分析與服務[J]. 巖石力學與工程學報, 2017, 36(10):2350-2365.
48. 48.
    朱合華,周龍,沈奕,閆治國.火災高溫下盾構襯砌結構試驗與力學模型綜述[J]. 中國公路學報,2017,30(8):15-26.
49. 49.
    朱合華,李曉軍,陳雪琴,陳艾榮,凌建明. 基礎設施建養(yǎng)一體數(shù)字化技術(2)—工程應用[J]. 土木工程學報,2015,48(6):114-121.
50. 50.
    朱合華,李曉軍,陳雪琴. 基礎設施建養(yǎng)一體數(shù)字化技術(1)—理論與方法[J]. 土木工程學報,2015,48(4):99-110+123.
51. 51.
    朱合華，張琦，章連洋. Hoek-Brown強度準則研究進展與應用綜述[J]. 巖石力學與工程學報，2013, 32(10): 1945-1963.
52. 52.
    朱合華, 李曉軍．數(shù)字地下空間與工程[J]. 巖石力學與工程學報,2007,26(11): 2277-2288.
53. 53.
    朱合華, 陶履彬. 盾構隧道襯砌結構受力分析的梁-彈簧系統(tǒng)模型[J]. 巖土力學, 1998(2):26-32. [1]

1. 1.
   朱合華等著. 地鐵結構演化與感控之科學漫畫[M], 上海：同濟大學出版社，2016.
2. 2.
   朱合華等編著. 城市地下空間建設新技術[M], 北京：中國建筑工業(yè)出版社，2014.7（獲第十五屆上海圖書獎）
3. 3.
   朱合華，閆治國著. 城市地下空間防火與安全[M],上海：同濟大學出版社，2014.12
4. 4.
   鄭穎人，朱合華，方正昌，劉懷恒編著. 地下工程圍巖穩(wěn)定分析與設計理論[M]. 北京：人民交通出版社，2012.12
5. 5.
   朱合華等編著. 城市地下空間新技術應用工程示范精選[M], 北京：中國建筑工業(yè)出版社，2011.8
6. 6.
   李志厚，朱合華，丁文其. 公路連拱隧道設計與施工關鍵技術[M], 北京：人民交通出版社，2010.10
7. 7.
   楊林德，朱合華，丁文其，黃宏偉等. 巖土工程問題安全性的預報與控制[M]. 北京：科學出版社，2009.3（中國科學院科學出版基金資助）
8. 8.
   張鳳祥，朱合華,傅德明編著. 盾構隧道[M]. 北京：人民交通出版社，2004.10 [9]

• 科研項目

• 科研獲獎&發(fā)明專利

• 學生培養(yǎng)

• 教育理念