教师队伍

丁建文

时间:2019-10-22浏览:247

丁建文  博士、副教授

基本信息

丁建文博士,副教授,博士生导师,东南大学交通学院地下工程系副主任

中国水利学会疏浚与泥处理专委会副秘书长

中国土木工程学会交通岩土专委会委员

全国城市地下空间工程专业建设委员会委员

中国岩石力学与工程学会地下空间分会理事

Emailjwding2006@163.comjwding@seu.edu.cn
东南大学交通学院地下工程系(岩土工程研究所)
江苏省南京市江宁区东南大学路2号,邮编:211189


教育背景

 2013.4~2014.4  美国普渡大学土木工程学院,访问学者

2006.9~2011.5  东南大学交通学院岩土工程专业,工学博士学位

2002.9~2005.5  东南大学交通学院岩土工程专业,工学硕士学位

1994.9~1998.7  南京工业大学土木学院工民建专业,工学学士学位

 1991.9~1994.7  江苏省姜堰中学


工作经历

2000.4~至今    东南大学交通学院地下工程系(岩土工程研究所)

 1998.8~2000.4   地质矿产部南京地质学校岩土科


研究方向

河湖疏浚泥及其堆场综合处置利用研究

大直径深长钻孔灌注桩的承载性状研究

基坑支护工程、地下结构优化设计研究

软土、膨胀土等特殊地基改良处理研究


承担课题工程项目:


1)国家自然科学基金:工业废渣处理高含水率疏浚泥固化土的强度机制压缩模型研究(课题编号:51978159主持2020-2023

2)国家自然科学基金:基于级配和胶凝作用的水泥土强度形成机制与调控技术(课题编号:51878159,参与,2019-2022

3)国家自然科学基金:考虑颗粒径向移动影响的疏浚泥砂井大应变固结模型研究(课题编号:51378118主持2014-2017

4)国家973重大项目:高水压越江海长大盾构隧道工程安全的基础研究, 高压多相“土--水”平衡理论及控制(项目编号:2015CB057803参与,2015-2019

5)国家科技支撑项目:南水北调河道疏浚泥堆场综合处置关键技术研究与应用(项目编号:2015BAB07B06子课题负责人,2015-2017

6)乌鲁木齐国际机场北区改扩建工程高填方基础变形与边坡稳定性专题研究(项目编号:8521002493主持,2017-2019

7)大连湾跨海交通工程疏浚泥处理与资源化利用及人工岛地基基础处理(项目编号:8521002278参与,2017-2019

8水利部公益性行业专项经费项目堤坝(涵闸)基础建设扰动密实排水固结新技术研究(项目编号:201401006-2参与,2014-2016

9)国家自然科学基金:高含水率疏浚淤泥材料非线性变化规律与大变形固结模型研究(课题编号:51178107),主持2012-2015

10)国家高技术研究发展计划(863计划):大面积吹填淤泥W-S-S工法(课题编号:2007AA11Z135),参与2007-2010

11)水利部公益性行业科研专项经费项目:小堆场快速复耕的疏浚淤泥处理新技术(课题编号:200701045),参与,2007-2010

12)国家自然科学基金:天然沉积粘性土结构性压缩模型研究(课题编号:50878050),参与,2009-2011

13)国家自然科学基金:考虑应力水平影响的天然沉积结构性软粘土灵敏度评价体系(项目号:41172240),参与,2012-2015

14)国家自然科学基金:铁尾矿砂-粘土系统物理化学相容性能研究(项目号:41272312),参与,2013-2016

15)江苏省南水北调工程科技创新项目:疏浚淤泥堆场处理技术现场试验--关键技术及测试分析研究(项目编号:KJCX-201003),主持,2009-2010

16)江苏省南水北调工程科技创新项目:泥水分离技术及工程应用研究(项目编号:KJCX-200612,校内号:7621000068),参与,2006-2008

17)南京市交通局科研项目:特殊条件下超挖改良土填筑路床和底基层施工技术研究(项目编号No. 2007-22),参与,2007-2008

18)常州港强夯项目(常州港录安洲港区夹江集疏运码头一期工程件杂货堆场强夯置换试验方案分析评价研究),参与2007-2008

19)江苏省交通科学研究计划项目:高等级公路低路堤基底浅层处置技术应用研究(项目编号:06y14),参与2006-2007

20江苏华电句容煤炭储运码头工程真空预压联合堆载过程控制与效果评价,负责,2016

21)连云港和风灌西100MW风电场工程预制桩打桩效应分析与评价,负责,2017

22)南京扬子江隧道江北连接线快速化改造工程明挖隧道基坑安全监控咨询,负责,2016-2017

23)南京地铁一号线北延线笆斗山至二桥公园站车站与区间盾构安全监控量测分析,负责,2017-2019

24)江阴市芙蓉大道快速化改造工程虹桥隧道明挖隧道基坑安全监控咨询,负责,2017-2019

25南京长江漫滩富水地层路堤填筑控制技术与行车荷载动力响应研究,负责,2019-2020

26南京长江漫滩富水地层中深基坑开挖风险分析与安全监控技术研究,负责,2019-2020

发表论文

1丁建文,刘松玉.关于超长桩有效桩长问题的探讨[J].公路交通科技,2006,23(10):83-85.

2丁建文,石名磊,刘维正.道路底基层中磷石膏-石灰二灰土再生试验研究与应用[J].东南大学学报自然科学版,2009,39(1):121-126. (EI检索)

3丁建文,张帅,洪振舜,刘松玉.水泥-磷石膏双掺固化处理高含水率疏浚淤泥试验研究[J]. 岩土力学,2010,31(9):2817-2822. (EI检索)

4丁建文,洪振舜,刘松玉.疏浚淤泥流动固化土的压汞试验研究[J].岩土力学, 2011,32(12) :3591-3596. (EI检索)

5丁建文,洪振舜,刘松玉.疏浚淤泥流动固化土的三轴剪切试验研究[J].东南大学学报:自然科学版,2011,41(5):1070-1074. (EI检索)

6丁建文,石名磊. 富含磷石膏道路底基层改良再生现场试验与应用[J].施工技术,2009,38(4):98-100.

7丁建文,张帅,洪振舜.高含水率疏浚淤泥流动固化处理试验研究[J].水运工程,2009,428(6):30-34.

8丁建文,石名磊,刘维正.长短桩在含有浅部持力层地基中的应用研究[J].防灾减灾工程学报2009,29 (6):696-701.

9丁建文,洪振舜,刘松玉.疏浚淤泥流动固化处理与流动性试验研究[J].岩土力学,2011, 32(1):280-284. (EI检索)

10丁建文,石名磊,刘松玉,滕玉明.新时期提高工科专业课课堂教学效果的途径探索与思考[J].高教论坛2009,112(2):40-42.

11张铁军,丁建文,邓东升,洪振舜. 生石灰处理高含水率疏浚淤泥的含水率变化规律研究[J].岩土力学,2009,30(9):2775-2778. (EI检索)

12丁建文,吴学春,李辉等.疏浚淤泥固化土的压缩特性与结构屈服应力[J].工程地质学报, 2012, 20(4): 627-632.

13杨瑞敏,丁建文,吉锋,何仁财.基于Eshelby本征应变自洽法的岩土二元介质本构关系[J].四川大学学报(工程科学版),2012,44(4) :12-19. (EI检索)

14丁建文,刘铁平,曹玉鹏,杨瑞敏,王刚.高含水率疏浚淤泥固化土的抗压试验与强度预测[J]. 岩土工程学报, 2013, 35(zk2): 55-60. (EI检索)

15卞夏,丁建文,史剑. 考虑超固结比影响的硬黏土应力灵敏度变化规律[J]. 东南大学学报自然科学版, 2016,46(3):624-628. (EI检索)

16曹玉鹏,丁建文,马志华,张政田.负压条件下高含水率疏浚泥轴对称大应变固结模型[J]. 东南大学学报自然科学版,2016,46(4):860-865. (EI检索)

17刘志中, 丁建文, 王刚, 吉锋, 田文斌. 考虑真空度衰减的真空预压沉降计算方法[J]. 东南大学学报自然科学版, 2016, 46(1):191-195. (EI检索)

18Ding 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, 2017,31(3):04017002~1-7.(SCI检索)

19Bian 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检索)

20Ding 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检索)

21丁建文,万星,冯旭松,钱森,吉锋.高含水率疏浚淤泥固化土的压缩模型研究[J]. 东南大学学报自然科学版, 2019,49(2):624-628. (EI检索)

22Ding 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检索)

23Ding 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检索)

24Ding Jianwen, Wan Xing, Zhang Chongqi,He Zhijiang, and Zhao LunCase studyThe ground improvement of Yangtze River floodplain soils with combined vacuum and surcharge preloading method. ASCE, International Journal of Geomechanics, 2019, 19(12): 05019008(SCI检索)

人才需求

欢迎同学们报考研究生

Ph.D.Jianwen Ding

Personal details

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

Associate Professor,Institute of Geotechnical Engineering

School of Transportation Southeast University.
No.2, Si Pai Lou, 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

Teachingexperiences

CourseUnderground Building Structures& Foundation Engineeringfor undergraduate students

Advanced Underground Building Structuresfor graduate students

Research interests

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

Comprehensive treatment of dredged clays (consolidation; solidification;recycling)

Engineering properties of soil & soil treatment(soft soil; expansive soils)

Subgrade Engineering in highway (road embankment & road subbase )

Underground engineering(tunnel ; excavation engineering ; subway)

Workexperiences

04/2000~ Present,Southeast University

08/1998~04/2000,   Nanjing Geology School

Research Experiences

1NationalNatural ScienceFoundation of ChinaMechanism of Strength Formation and Strength Evolutionand Compression Modelfor 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 clay considering 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

11National Natural Science Foundation of ChinaStudy on structural compression model of natural sedimentary clayNo. 50878050, Participation. 2009-2011

12Public 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

13Scientific & 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

14Scientific &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

15Transportation research of Nanjing City: Study on slope rate of the lime - stabilized soil embankmentNo. 2008-20),Participation. 2008-2009

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

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)

12Ding 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)

13Ding 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)

14Bian XiaQian SenDing Jianwen.Modeling Virgin Compression of Reconstituted Clay at Different Initial Water Contents. China Ocean Engineering 2014, 29(5):745-755.

15Chen XingxinCai Qipeng, Ding Jianwen. Laboratory observations of particle release in a porous medium using increasing ultrasound stimulation. Journal of Hydrology, 2015,533:421-429.  

16Bian 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.

17Bian 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), 201646(3):624-628. (EI)

18Cao 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)

19Liu 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)

20Cao 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)

21Ding 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)

22Bian 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)

23Bian 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)

24Ding 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)

25Ding 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)

26Ding 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)

27Ding 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)

28Ding 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)




地址

江苏省南京市江宁区东南大学路2号

邮编

211189

二维码