ACADEMICS

CONTACT

School of
Transportation,
2 Southeast University Road,
Jiangning District, Nanjing, Jiangsu Province
211189
P.R.China
Office: 025-52091255
dndxjtxy@126.com

Ding Jianwen

Jianwen Ding


Personal details

Name: Jianwen Ding, Ph.D. in Geotechnical Engineering

Professor, Institute of Geotechnical Engineering, School of Transportation, Southeast University.
No.2, Southeast University Road, Jiangning District, Nanjing, Jiangsu Province, 210096, P.R.China.
 Email
jwding2006@163.comjwding@seu.edu.cn

Education background

Visiting Scholar: 04/2013~04/2014, School of Civil Engineering, Purdue University, USA

PhD.: 09/2006~5/2011,

Major in Geotechnical Engineering, Institute of Geotechnical Engineering, School of Transportation, Southeast University

M.S.: 09/2002~04/2005,

Major in Geotechnical Engineering, Institute of Geotechnical Engineering, School of Transportation, Southeast University

B.S.: 09/1994~06/1998,

Major in Civil Engineering, School of Civil Engineering, Nanjing University of Technology

CourseUnderground Building Structures & Foundation Engineeringfor undergraduate students

Advanced Underground Building Structuresfor graduate students

Research interests

Comprehensive treatment of dredged clays (Consolidation; Solidification; Recycling)

Engineering properties of soil & soil treatment (Soft soil; Expansive soils; Gobi gravel soil)

Underground engineering (Tunnel; Excavation engineering; Subway)

Mechanical behavior & settlement analysis of the big-diameter and super-long piles

Beneficial use of wastes (Engineering waste soil & industrial by-products)

04/2000~ Present, Southeast University

Research Experiences

1NationalNatural ScienceFoundation of ChinaMechanism of Strength Formation and Strength Evolution and Compression Model for Solidified Soil from Dredged Clays at High Water Content Treated by Industrial WasteNo. 51978159,Person-in-Charge,2020-2023

2National Natural Science Foundation of ChinaLarge-strain Consolidation Model on Reclaimed Land of Dredged Clays with Vertical Drains Associated with Particle Radial MovementNo.51378118, Person-in-Charge,2014-2017

3NationalNatural ScienceFoundation of ChinaLarge-strain Consolidation Model of Dredged Clays based on Nonlinear Variation Law of Compressibility and Permeability during CompressionNo.51178107,Person-in-Charge,2012-2015

4National Basic Research Program (973 Program)Basic research on the safety of shield tunnel under high water pressure, Equilibrium theory and control of soil- mud - water under high pressure &multiphase conditions (No. 2015CB057803).Participation. 2015-2019

5National Science and Technology Support Program Foundation of China (Grant No. 2015BAB07B06): Research & application of key techniques for comprehensive disposal of dredged slurry yard in South-to-North Water Diversion, Participation. 2015-2017

6Study on the deformation of high fill foundation and slope stability of Urumqi international airport north area reconstruction and extension projectNo.8521002493,Person-in-Charge2017-2019

7Treatment and resource utilization of dredged slurry and foundation treatment of artificial island of cross - sea transportation project in Dalian bayNo.8521002278,Participation.2017-2019

8Public Welfare Special Fund for Scientific Research Project by the Ministry of Water Resources: A new technology research on perturbation compaction of drainage consolidation in dyke (culvert) infrastructure constructionNo. 201401006, Participation.2014-2016

9NationalNatural ScienceFoundation of ChinaEvaluation system of sensitivity of natural sedimentary structural soft clayconsidering the effect of stress levelNo.41172240, Participation. 2012-2015

10National High Technology Research & Development Project863 Projectof ChinaW-S-S (Water decrease - Surface disposal - Surface loading)construction method for large area dredged clays stockyardNo. 2007AA11Z135, Participation. 2007-2010

11Public Welfare Special Fund for Scientific Research Project by the Ministry of Water Resources: Quick reclamation treatment technology of dredged soils stockyardNo. 200701045),Participation. 2007-2010

12National Natural Science Foundation of ChinaStudy on structural compression model of natural sedimentary clayNo. 50878050, Participation. 2009-2011

13National Natural Science Foundation of ChinaEvaluation system of sensitivity of naturally sedimentary structural soft clay considering stress level.No. 41172240, Participation. 2012-2015.

14Scientific & TechnicalInnovationProject of the South-to-North Water Transfer Project of Jiangsu Province: Key technology study of the dredged soils stockyardNo. KJCX-201003),Person-in-Charge, 2009-2010

15Scientific &TechnicalInnovationProject of the South-to-North Water Transfer Project of Jiangsu Province: Study on slurry separation technique and application in engineeringNo. KJCX-200612),Participation. 2006-2008

16Transportation research of Nanjing City: Road bed and road subbase construction technology study with filling improved soil under special conditions.No. 2007-22),Participation. 2007-2008

17Transportation Research Project of Jiangsu Province: Soft soil treatment for low embankment of high-gradehighway on the floodplain area of Yangtze River No. 06Y14),Participation. 2006-2007

18Monitoring and evaluation on squeezing effect of installation of precast piles in 100MW wind power plant in Lianyungang. Person-in-Charge, 2017.

19Risk assessment and security monitoring study on deep excavation in Nanjing Yangtze River floodplain soils. Person-in-Charge, 2019-2020.

20Study on controlling embankment filling and dynamic responses of vehicle loads in Nanjing Yangtze River floodplain soils. Person-in-Charge, 2019-2020.

Publications

1Ding Jianwen, Zhang Shuai, Hong Zhenshun, Liu Songyu. Experimental study on solidification of dredged clays with high water content by adding cement and phosphogypsum synchronously[J].Rock and Soil Mechanics,2010,31(9):2817-2822. (EI) , ( in Chinese)

2Ding Jianwen, Shi Minglei, Liu Weizheng. Reusing test study and application of phosphogypsum-lime solidified soil in road base course. Journal of Southeast University(Natural Science Edition), 2009,39(1):121-126. (EI) , ( in Chinese)

3Ding Jianwen,Hong Zhenshun,Liu Songyu. Microstructure study on flow-solidified soil of dredged clays by mercury intrusion porosimetryMIPtest[J].Rock and Soil Mechanics,2011,32(12) :3591-3596. (EI), ( in Chinese)

4Ding Jianwen, Liu Songyu. Discussion on the Effective Length of Super-Long Pile. [J].Journal of Highway and Transportation Research and Development, 2006,23(10):83-85, ( in Chinese)

5Ding Jianwen, Hong Zhenshun, Liu Songyu. Triaxial shear test of flow-solidified soil of dredged clays.Journal of Southeast University (Natural Science Edition), 2011,41(5):1070-1074. (EI), ( in Chinese)

6Ding.Jianwen, Shi Minglei, Liu Weizheng. Research on Application of Long-Short-Pipe-Piles in the Ground with Shallow Bearing Strata [J]. Journal of Disaster Prevention and Mitigation Engineering, 2009,29 (6):696-701, ( in Chinese)

7Ding Jianwen, Hong Zhenshun, Liu Songyu. Study of flow-solidification method and fluidity test of dredged clays [J]. Rock and Soil Mechanics,2011,32(Supp.1):280 - 284 , ( in Chinese)

8Ding Jianwen , Shi Minglei .Field Test and Application on Reusing of Mixture with Much Phosphogypsum in Road Base Course [J]. Construction Technology,2009,38(4):98-100 , ( in Chinese)

9Ding Jianwen, Zhang Shuai, Hong Zhenshun.Experimental study on solidification in flowing state of dredged clay with high water content [J]. Port & Waterway Engineering,2009,428(6):30-34 , ( in Chinese)

10Zhang Tiejun, Ding Jianwen, Deng Dongsheng, Hong Zhenshun .Change law of water content of dredged clays treated by quick lime[J].Rock and Soil Mechanics, 2009,30(9):2775-2778 , ( in Chinese)

11Xu Guizhong, Gao Yufeng, Hong Zhenshun, Ding Jianwen. Sedimentation Behavior of Four Dredged Slurries in China[J].Marine Georesources and Geotechnology. 2012,30:143-156. (SCI)

12Yang Ruimin, Ding Jianwen, Ji Feng, He Rencai. Constitutive of Binary Medium for Soils Based on Eshelby Eigenstrain Self-consistent Method [J]. Journal of Sichuan University, 2012, 44(4): 12-19. (in Chinese)

13Ding Jianwen,Wu Xuechun,Li Hui, Bie Xueqing,Ji Feng. Compression properties and structure yield stress for solidified soil of dredged clays [J]. Journal of Engineering Geology, 2012, 20(4): 627-632. (in Chinese)

14Ding Jianwen, Liu Tieping, Cao Yupeng, Yang Ruimin, Wang Gang.Unconfined compression tests and strength prediction method for solidified soils of dredged clays with high water content[J]. Chinese Journal of Geotechnical Engineering, 2013, 35(Supp.2): 55-60. (EI), (in Chinese)

15Yang Ruimin, Xu Guizhong, Ding Jianwen, Geng Wei, Hong Zhenshun.Grain sorting laws and mechanisms in reclaimed land of dredged slurries[J]. Journal of Southeast University, 2013, 43(3): 639-643. (in Chinese)

16Xu Guizhong, Yang Ruimin, Ding Jianwen, Shen Minyi, Hong Zhenshun. Field experiment on grain sorting behaviors in reclaimed land of dredged slurries with high water content [J]. Journal of Southeast University, 2013, 43(3):634-638. (in Chinese)

17Bian XiaQian SenDing Jianwen.Modeling Virgin Compression of Reconstituted Clay at Different Initial Water Contents. China Ocean Engineering 2014, 29(5):745-755. (SCI)

18Chen XingxinCai Qipeng, Ding Jianwen. Laboratory observations of particle release in a porous medium using increasing ultrasound stimulation. Journal of Hydrology, 2015,533:421-429. (SCI)

19Qian Sen, Shi Jian, Ding Jianwen. Variation reqularity of stress sensitivity of natural clay during compression. [J]. Journal of Southeast University, 2015, 45(6):1180-1184. (in Chinese)

20Bian Xia, Hong Zhenshun; Ding Jianwen. Evaluating the effect of soil structure on the ground response during shield tunnelling in Shanghai soft clay. Tunnelling and Underground Space Technology, 2016,58:120-132. (SCI)

21Bian Xia, Ding Jianwen, Shi Jian. Variation law of stress sensitivity for stiff clay considering effects of overconsolidation ratio [J].Journal of Southeast University (Natural Science Edition), 2016, 46(3):624-628. (EI), (in Chinese)

22Cao Yupeng, Ding Jianwen, Ma Zhihua, Zhang Zhengtian. Axisymmetric large-strain consolidation model for dredged clays with high water content under vacuum preloading [J].Journal of Southeast University (Natural Science Edition),2016, 46(4):860-865. (EI)

23Liu Zhizhong, Ding Jianwen, Wang Gang, Ji Feng, Tian Wenbin. Analysis of Vacuum Damping Law Based on Extended Analytical Solution of Pore Pressure [J].Journal of Southeast University (Natural Science Edition), 2016, 46(1):191-195. (EI), (in Chinese)

24Cao Yupeng, Sun Zongjun, Ding Jianwen, Ji Feng. Axisymmetric large-strain consolidation model for dredged clay with high water content [J]. Chinese Journal of Geotechnical Engineering, 2016, 38(10) :1904-1910. (EI), (in Chinese)

25Ding Jianwen, Shi Minglei, Liu Weizheng, Hong Zhenshun. In-situ Stabilization of Problematic Mixtures in a Failed Roadway Subbase. ASCE, Journal of performance of constructed facilities, 2017, Volume:31, Issue:3, 04017002~1-7. (SCI)

26Bian Xia, Ding Jianwen, Qian Sen. Quantitative assessment on the variation of compressibility of Wenzhou marine clay during destructuration. KSCE Journal of Civil Engineering, 2017, 21(3), 659-669. (SCI)

27Bian Xia, Zeng Lingling, Ding Jianwen,Qian Sen. Assessment of the effects of initial water contents on the pore pressure response of reconstituted clays. European Journal of Environmental and Civil Engineering, 2017, 21(4):454-470. (SCI)

28Ding Jianwen, Shi Minglei, Liu Weizheng,Wan Xing. Failure of Roadway Subbase Induced by Overuse of Phosphogypsum. ASCE, Journal of Performance of Constructed Facilities, 2019, 33(2): 04019013~1-7. DOI: 10.1061/(ASCE)CF.1943-5509.0001278. (SCI)

29Ding Jianwen, Feng Xusong, Cao Yupeng, Qian Sen, Ji Feng. Consolidated Undrained Triaxial Compression Tests and Strength Criterion of Solidified Dredged Materials. Advances in Civil Engineering, Volume 2018,1-10, ID 9130835. (SCI)

30Ding Jianwen, Feng Xusong, Xu Guizhong, Qian Sen, Ji Feng. Strength Properties and Microstructural Characteristics of Stabilized Dredged Materials at High Water Contents. ASTM, Journal of Testing and Evaluation, 2019.Volume:47,Issue:3,DOI:10.1520/JTE20180049 (SCI)

31Ding Jianwen, Wan Xing, Feng Xusong, Qian Sen, and Ji Feng. Study on Compression Model of the Solidified Soil of Dredged Clays with High Water Content. Journal of Southeast University(Natural Science Edition), 2019,49(2):624-628. (EI), (in Chinese)

32Ding Jianwen, Wan Xing, Zhang Chongqi, He Zhijiang, and Zhao Lun. Case study: Ground improvement of Yangtze River floodplain soils with combined vacuum and surcharge preloading method. ASCE, International Journal of Geomechanics, 2019, 19(12): 05019008 (SCI)

33Wan Xing, Ge Ming, He Zhijiang, Deng Song, Ding Jianwen. Characteristics of deformation of retaining wall due to deep excavation in Nanjing[J]. Chinese Journal of Geotechnical Engineering, 2019, 41 (S1): 85-88. (in Chinese)

34Mou Cong, Ding Jianwen, Wang Heng, Wan Xing, Hong Zhenshun. Lab experiments on consolidation degrees of clays dredged from Xiangmiao-Fushan Section of Huaihe River[J]. Journal of Civil and Environmental Engineering, 2019, 41(03): 27-31. (in Chinese)

35Zhang Chongqi, Ding Jianwen, Wan Xing, Zhao Lun, He Zhijiang. Test and Analysis on Pore Water Pressure in Yangtze River Floodplain Foundation Reinforced by Vacuum Combined Surcharge Preloading[J].Journal of Disaster Prevention and Mitigation Engineering, 2019, 39(6)954-960. (in Chinese)

36Huang Shuohan, Wang Jing, Mou Cong, Ding Jianwen.One-dimensional compression behavior of reconstituted river sediments with organic matter[J]. Journal of Civil and Environmental Engineering, 2019,41(05):35-41. (in Chinese)

37Wang Jing, Mou Cong, Zhao Hanrui, Ding Jianwen.Experimental study on quantitative physical-strength relationship of heavy-metal-contaminated soils[J]. Journal of Civil and Environmental Engineering, 2020, 42(2): 30-36. (in Chinese)

38Wan Xing, Ding Jianwen, Huang Cong, Ding Cheng. Experimental study on quantitative physical-strength relationship of heavy-metal-contaminated soils[J]. Journal of Southeast University(Natural Science Edition), 2020, 50(6)1090-1096. (EI), (in Chinese)

39Wang Heng, Zeng Ling-ling, Ding Jian-wen, Hong Zhen-shun. Settlement of Funing Natural Clays under 14-Year Embankment Loads: A Case Study. Advances in Civil Engineering, 2019: 8297459. (SCI)

40Shi Xiusong, Gao Yufeng, Ding Jianwen. Estimation of the compression behavior of sandy clay considering sand fraction effect based on equivalent void ratio concept. Engineering Geology,2021, Vol:280. (SCI)

41Wang Jianhua., Ding Jianwen, Wang Heng, Mou Cong. Large-strain consolidation model considering radial transfer attenuation of vacuum pressure. Computers and Geotechnics, 2020, 122, 103498. https://doi.org/10.1016/j.compgeo.2020.103498. (SCI)

42Ding Jianwen, Wan Xing, Hong Zhenshun, Wang Jianhua, Mou Cong. Excess Pore Water Pressure Induced by Installation of Precast Piles in Soft Clay.ASCE International Journal of Geomechanics, 2021, 21(9): 05021002,DOI: 0.1061/(ASCE)GM.1943-5622.0001992(SCI)

43Wan Xing, Ding Jianwen, Ou Yanyuxin, Mou Cong, Ding Cheng. Triaxial Testing and Numerical Simulation on High Fill Slopes of Gobi Gravel Soils in Urumchi, Journal of Testing and Evaluation, DOI: 10.1520/JTE20200678 (online,SCI)

44Cao Yupeng, Ding Jianwen, Zhang Rui, and Xu Guizhong. Effect of Vertical Flow on Consolidation Degree of Foundation with Vertical Drains in Large-Strain Consolidation Theory. KSCE Journal of Civil Engineering, 2021, 25: 3264-3272. (SCI)

45Ding Jianwen, Wan Xing, Zhao Hanrui, Guo Chen, Jiao Ning. Laboratory investigation of cemented silt improved with bentonite and phosphogypsum in DCM walls, European Journal of Environmental and Civil Engineering, DOI:10.1080/19648189.2021.1968502 (2021) (SCI)

46Wang Jianhua, Zeng Lingling, Ding Jianwen and Hong Zhenshun, A large-strain consolidation model incorporating vacuum pressure growth propagation. Proceedings of the Institution of Civil Engineers – Geotechnical Engineering, https://doi.org/10.1680/jgeen.20.00166, (online,SCI)

47Ding Jianwen, Zhang Sai, Zhang Huang, Guo Chen, Liao Zhaosheng, and Liu Huigang. Ground Settlement Caused by Shield Tunneling in Soil-Rock Composite Strata. ASCE Journal of Performance of Constructed Facilities, 2021, 35(5): 04021057. (SCI)

48Ding Jianwen, Wan Xing, Wang Jianhua, Mou Cong, Gao Mengying.Compression behavior of cement-treated marine dredged clay in Dalian Bay, Geomechanics and Engineering, 2021, 26(4), 345-355. (SCI)

Awards

1Second prize of Teaching jobs in Southeast University2012

2First prize of Teaching achievement in Southeast University2017

3Second prize of Teaching achievement in Jiangsu Province2017-by Jiangsu Provincial Department of Education

4First prize of Science and Technology Award of Huai Committee of Ministry of Water Resources2020

5Outstanding winner of Teaching achievement in Southeast University2021


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