Title

Professor   /

PhD   Supervisor

Degree

Ph.D.

Position

Vice head of Civil Engineering Department

Discipline

Civil Engineering, Geotechnical Engineering

Education and Professional Experience

Education：

Ph.D.   of Geotechnical Engineering (obtained in Dec. 2009)
  Department of Civil Engineering, Hohai University
  B.E. of Civil Engineering (obtained in Jun.   2004)
  Department of Civil Engineering, Hohai   University
 

Professional Experience：

2021/07 – Present, Jiangsu University, Professor, PhD Supervisor;

2023/10 – 2024/10, University of   Wisconsin-Madison, Research Scholar;

2016/07 – 2016/12, University of Wisconsin-Madison,   Research Scholar;
  2015/07 – 2021/07, Jiangsu University,   Associate Professor, MS Supervisor;
  2014/09 – 2015/09, University of   Wisconsin-Madison, Research Scholar;
  2009/06 – 2015/07, Jiangsu University,   Lecturer.
 
 

Social Academic Post and Honor

Reviewer   of Journal papers including “Construction and Building Materials”, Acta   Geotecnica”, “Composites part part B-Engineering”, “Journal of Materials in   Civil Engineering”, “Geotechinical Testing Journal”, “Journal of Rock   Mechanics and Geotechnical Engineering”, “Cold Regions Science and Technology”,   “Environmental Earth Sciences”, “Marine Georesources and Geotechnology”, “KSCE   Journal of Civil Engineering”, “Advances in Civil Engineering”, “Vadose Zone   Journal”, “Polymers”, etc.

M. ASCE, M.ISSMGE

Main Courses

2nd year Chinese students "Foundation   Engineering";
  4th year Chinese students "Testing and   Inspection for Civil structures";
  2nd year overseas students "Engineering   Geology and Soil Mechanics"
  3rd year overseas students "Foundation   Engineering";
  3rd year overseas students "Building   Structures Inspection";
  Post graduates "Advanced soil mechanics",   "Advanced Concrete Theory".

Scientific Research Field

1.Mechanical   behavior of structured clays and its constitutive modeling;
  2.Techniques for soft soil improvement and ground modification;
  3.Beneficial reuse of recycled materials, industrial by-products;
  4.Mechanical   properties and anchorage technology of FRP materials.

Projects

2020.1-2023.12   Responsible for "Study on creep mechanism and   constitutive theory of reinforced Recycled Asphalt Pavement (RAP) backfill   concerning temperature effect", sponsored by National Natural Science   Foundation of China.(Grant No.51978315);
  2015.1-2017.12 Responsible for "Quantitative assessment of undrained   shear strength and destructuration mechanisms analysis for K0 consolidation   structured soft clays", sponsored by National Natural Science Foundation   of China.(Grant No.41402251);

2019.9-2021.6 Take   part in "Permeability of Base Aggregate and Sand, sponsored by National   Road Research Alliance", sponsored by MnDOT.

2019.4-2020.10   Take part in "Use of Recycled Materials as Mechanically Stabilized Earth   (MSE) Retaining Wall Reinforced Backfills, Phase II: Full-Scale Testing",   sponsored by National Center for Freight and Infrastructure Research and   Education (CFIRE);
  2014.9-2015.8 Take part in "Engineering properties of foundry sands for   use in highway embankment fill"， sponsored by The University of Wisconsin;
  2014.9-2015.8 Take part in "Use of Recycled Materials as Mechanically   Stabilized Earth (MSE) Retaining Wall Reinforced Backfills"， sponsored by   National Center for Freight and Infrastructure Research and Education   (CFIRE);
  2012.1-2013.12 Responsible for "Constitutive model research on natural   structured soft clays" sponsored by Key Laboratory of Ministry of   Education for Geomechanics and Embankment Engineering, Hohai University open   program. (Grant No. GH201104);
  2009.9-2011.8 Responsible for "Analysis the mechanism of the effects of   soil structure". sponsored by Jiangsu University Talents Funds program.   (Grant No. 10JDG079)

Main Papers and Patents

Main Publications (update till Sept. 2024)

2024  (* Corresponding author)

[1] Zhang, J., Zhang,   W., Wang, Z., Xu, G., Ge, D., & Yin, J.* (2024). Influence of curing   stress on compression characteristic of cement-treated dredged slurry at high   water contents. Marine Georesources & Geotechnology, 42(3), 305-316.   https://doi.org/10.1080/1064119X.2023.2171322 (SCI, IF=2.135)

[2] Zhang, Z., Zhang, L., Liu,   H., & Yin, J.* (2024). Effects of metakaolin and sodium silicate   treatment on highwater content dredged clay for improved construction fill   performance. Construction and Building Materials, 411, 134196.   https://doi.org/10.1016/j.conbuildmat.2023.134196  (SCI, IF=7.4)

[3] Zhang, L., Tian, X., Qiu, W., & Yin, J.* (2024).   Investigation on strength characteristics of fly ash treated dredged marine   clay with various pore water salinities. Marine Georesources &   Geotechnology, 1-11. https://doi.org/10.1080/1064119X.2024.2314627    (SCI, IF=2.135)

[4] Zhang, L., Wu, J., Hudu, A. A., & Yin, J.* (2023).   Strength behavior of metakaolin and fly ash treated dredged clay at high   water content. Marine Georesources & Geotechnology, 42(7): 945-956.   https://doi.org/ 10.1080/1064119X.2023.2241032 (SCI, IF=2.135)

[5] Li, M., Tao, X., Lang, C.,   Zhang, J., Xu, G., Zhu, L., & Yin, J.* (2024). Enzyme-Induced Carbonate   Precipitation Using Yellow Soybean for Eco-Friendly Treatment of Expansive   Soils. International Journal of Geomechanics, 24(3), 04024007.   https://doi.org/10.1061/IJGNAI.GMENG-900 (SCI, IF=3.3)

2023年    (* Corresponding author)

[1] Yin, J., Wu, J. X., Zhang, K., Shahin, M.   A., & Cheng, L.* (2023). Comparison between MICP-Based Bio-Cementation   Versus Traditional Portland Cementation for Oil-Contaminated Soil   Stabilisation. Sustainability, 15(1), 434. https://doi.org/10.3390/su15010434   (SCI, IF=3.889)

[2] Liu, H., Yan, S., Yin, J.*, Fan, J. Q.,   Miao, Y. H., & Zhou, F. B. (2023). Effects of frequency and CSR on   dynamic properties of marine clay in drained condition. Marine Georesources   & Geotechnology, 41(11), 1216-1228. https://doi.org/10.1080/1064119X.2022.2129530   (SCI, IF=2.605)

[3] Pan, L., Liu, H., Qiu, W. J., and Yin, J.* (2023). Effects of   Salinity and Curing Time on Compression Behavior of Fly Ash Stabilized Marine   Clay. KSCE Journal of Civil Engineering, 27(10), 4141-4151. https://doi.org/10.1007/s12205-023-1674-8   (SCI, IF=1.9)

[4] Song, M. M., Ding, J. W., Xiao, Q., Yin,   J.*, & Xu, G. Z. (2023). Primary and secondary compression behavior of   dredged clay at low effective stresses. Marine Georesources &   Geotechnology, 41(2), 123-131. https://doi.org/10.1080/1064119X.2021.2017083   (SCI, IF=2.605)

[5] Geng, W., Kumah, D., Yin, J.*, Ahmed, S.,   & Xiao, J. (2023). Yielding Behavior of Natural Clay Considering Stress   History Subjected to K0-Consolidation. International Journal of Civil   Engineering, 21(1), 149-158.  https://doi.org/10.1007/s40999-022-00737-w   (SCI, IF=1.8)

[6] Liu, L., Zhang, Z., Zhang, L., Tang, Y.,   & Yin, J.* (2023). Effect of Temperature on Interface Characteristics   between Compacted Recycled Asphalt Pavement and Geogrid. Advances in Civil   Engineering, 2023(1), 4596750. https://doi.org/10.1155/2023/4596750 (SCI,   IF=1.2)

2022年    (* Corresponding author)

[1] Yin, J.*, Lu, Z., Geng, W., Han,   W., & Hudu, A. A. (2022). Effect of porewater salinity on compression   behaviors and hydraulic conductivity of soft marine clay. Marine Georesources   & Geotechnology, 40(7), 813-822.   https://doi.org/10.1080/1064119X.2021.1941451 (SCI, IF=2.605)

[2] Yin, J.*, Wang, Q. Y., Ding, J.   W., Xu, G. Z., & Hu, G. H. (2022). Time-dependent strength behavior of dredged   clays at low effective stresses. Marine Georesources & Geotechnology,   40(10), 1255-1264. https://doi.org/10.1080/1064119X.2021.1989094 (SCI,   IF=2.605)

[3]   Xu, G., Han, Q., Wang, Z., Wu, J., & Yin, J*. (2022).   Eco-friendly rice straw as vertical drains for dredged slurry treatment as   construction fill. Construction and Building Materials, 345, 128244.   https://doi.org/10.1016/j.conbuildmat.2022.128244 (SCI, IF=7.693)

[4] Geng, W., Yin, J.*, Bian, Z., Liu, L., & Xu, G. (2022).   Fiber efficiency on the flow behaviors and compressibility-permeability of   fiber-reinforced cemented waste slurry. Journal of Materials in Civil   Engineering, 34(12), 04022347.   https://doi.org/10.1061/(ASCE)MT.1943-5533.000451 (SCI, IF=3.651)

[5] Geng, W. J., Han, W. X., Yin, J.*,   and Lu, Z. J. (2022). Salinity effects on the strength and morphological   indices of soft marine clay. Scientific reports, 12(1), 17563.   https://doi.org/10.1038/s41598-022-22627-w (SCI,   IF=4.996)

2021（*为通讯作者）
  [1] Jie Yin, Ke Zhang, Weijuan Geng*, Abdullah   Gaamom, Jian Xiao (2021.9). Effect of Initial Water Content on Undrained   Shear Strength of K0 Consolidated Clay. Soils and Foundations, 61, 1453-1463.   DOI: 10.1016/j.sandf.2021.08.010. (SCI, IF=3.098).
  [2] Jie Yin, Yong Tang, Weijuan Geng* &   Guizhong Xu (2021.4). Coupled effects of initial water content and swelling   history on compression behaviors of bentonite. Bulletin of Engineering   Geology and the Environment, 80, 4929-4941. DOI: 10.1007/s10064-021-02229-y.   (SCI, IF=4.298).
  [3] Yuan-shun Shen, Yong Tang, Jie Yin*,   Mei-ping Li, Ting Wen (2021.8). An experimental investigation on strength   characteristics of fiber-reinforced clayey soil treated with lime or cement.   Construction and Building Materials, 294(1-2), 123537. DOI:   10.1016/j.conbuildmat.2021.123537. (SCI, IF=7.693).
  [4] Miao-miao Song, Gui-zhong Xu, Jie Yin*,   Wei-juan Geng, Chen-chun (2021.2). Effect of turbulent fluctuation on   settling behavior of dredged slurry in sheared condition. KSCE Journal of   Civil Engineering. 25, 1252-1261. DOI: 10.1007/s12205-021-1136-0 (SCI,   IF=1.805).
  [5] Weijuan Geng, Hao Liu, Jie Yin*, Yongwei   Du, and Daniel Kumah (2021.12). Evaluation of compression behaviors of marine   clay reinforced with waste shredded tires. Advances in Civil Engineering,   DOI: 10.1155/2021/7780338 (SCI, IF=1.176).
 
 

2020（*Corresponding author）

1. Jie Yin*, Yong Tang, Yong-hong   Miao, Ruo-yu Sheng (2020.8). An Experimental Investigation on Dynamic   Characteristics of Soft Soils Treated by Vibration-Drainage Method. Advances   in Civil Engineering, 2020(2):1-12. DOI: 10.1155/2020/8890562. (SCI,   IF=1.176).

2. Jie Yin*, Ming-ming   Hu, Gui-zhong Xu, Wen-xia Han & Yong-hong Miao (2020.5): Effect of   salinity on rheological and strength properties of cement-stabilized clay   minerals, Marine Georesources & Geotechnology, 2020, 38(5): 611-620. DOI:   10.1080/1064119X.2019.1608484. (SCI, IF=1.716).

3. Gui-Zhong Xu, Zhe-yuan   Feng, Jie Yin*, Wen-xia Han, Yong-hong Miao (2020.9). Effect of Salinity on   Rheological Behavior of Cement-Treated Dredged Clays as Fills. Journal of   Materials in Civil Engineering, 2020, 32(9), 04020269. DOI:   10.1061/(ASCE)MT.1943-5533.0003376. (SCI, IF=2.169).

4. Gui-Zhong Xu, Jie Yin*,   Xu-Song Feng, Feng Ji (2020.6). An Improved Method for Dewatering Sewage   Sludge Using Intermittent Vacuum Loading with Wheat Straw as Vertical Drains.   KSCE Journal of Civil Engineering, 24(3): 2017-2025. DOI:   10.1007/s12205-020-2216-2. (SCI, IF=1.515)

5. Yong-hong Miao, Ruo-yu   Sheng, Jie Yin*, Fan-bo Zhou, Jian-Fei Lu (2020.2). Dynamic Characteristics   of Saturated Soft Clays under Cyclic Loading in Drained Condition. KSCE   Journal of Civil Engineering, 2020, 24(2): 443-450. DOI:   10.1007/s12205-020-1539-3. (SCI, IF=1.515)

6. Gui-Zhong Xu,   Cheng-Chun Qiu*, Miao-Miao Song, Yu-Peng Cao, Jie Yin (2020.7). Flocculant   effects on fluidity and strength behavior of cemented dredged clay with high   water content, Marine Georesources & Geotechnology, DOI:   10.1080/1064119X.2020.1786198. (SCI, IF=1.716).

2019（*Corresponding author）

1. Jie Yin*, Wen-xia Han,   Gui-zhong Xu, Ming-ming Hu & Yong-hong Miao (2019.10). Effect of salinity   on the strength behavior of cement-treated dredged materials at high water   content. KSCE Journal of Civil Engineering, 2019, 23(10): 4288-4296. DOI:   10.1007/s12205-019-0695-9. (SCI, IF=1.515)

2. Hai Qian*, Ding Zhou,   Jie Yin*, Yuexiang Qiu (2019.10).. A theoretical investigation on thermal   response of laminated open cylindrical panel. Archive of applied mechanics, DOI:   10.1007/s00419-019-01621-1. (SCI, IF=1.578)

3. Yong-hong Miao,   Ping-ping Zuo, Jie Yin*, Shoaib Ahmed, Guo-long Bai &  Jian-Fei Lu   (2019.9). An Improved CPTu-based Method to Estimate Jacked Pile Bearing   Capacity and its Reliability Assessment. KSCE Journal of Civil Engineering. 2019,   23(9): 3864-3874. DOI: 10.1007/s12205-019-2053-3. (SCI, IF=1.428)

4. Yong-hong Miao, Fan-bo   Zhou, Jie Yin*, Yan-chang Sun, Rui-bing Li & Jian-fei Lu (2019.6),   Effects of frequency and confining pressure on consolidation drainage   behavior of soft marine clays, Marine Georesources and Geotechniques. 2019,   37(6): 746-754  DOI: 10.1080/1064119x.2018.1483985. (SCI, IF=1.716).

5. Dan Liu, Jie Yin*, Rong-gui   Liu, Shu Ping & Gui-hua Xie (2019.4), Effect of temperature on   resistivity of CFRP materials with added carbon powder or nano-silica. KSCE   Journal of Civil Engineering, 23(4):1707-1716. DOI: 10.1007/s12205-019-1043-9.   (SCI, IF=1.515)

2018（*Corresponding author）
 
  1. Jie Yin, Ali Soleimanbeigi*, William J.   Likos, and Tuncer B. Edil (2018.2). Creep Response of Compacted Waste Foundry   Sands for Use as Roadway Embankment Fill. Journal of Geotechnical and   Geoenvironmental Engineering, 144(2): 04017115 (SCI, IF=2.464).
 
  2. Jian-fei Lu*, Jie Yin, and Jun Shuai   (2018.2). A model for predicting the frost-heave effect of a pile embedded in   the frozen soil. Cold Regions Science and Technology.2017, 146: 214-222 (SCI,   IF=1.909)
 
  2017（*Corresponding   author）
 
  1. Jie Yin, Ali Soleimanbeigi*, William J.   Likos, and Tuncer B. Edil (2017.4). Effects of Temperature on Creep Behavior   of Compacted Recycled Asphalt Pavement. Journal of Geotechnical and   Geoenvironmental Engineering, 143(4):06016028 (SCI, IF=2.464).
 
  2. Jie Yin*, Rong-gui Liu*, Jun-jie Huang, Ge   Liang, Dan Liu, Gui-hua Xie (2017.8). Comparative study on piezoresistive   properties of CFRP tendons prepared by two different methods. Composites Part   B: Engineering, 2017(129): 124-132. (SCI, IF=4.727) 
 
  3. Gui-hua Xie, Jie Yin*, Rong-gui Liu, Bei   Chen, and Dong-sheng Cai (2017.2). Experimental and numerical investigation   on the static and dynamic behaviors of cable-stayed bridges with CFRP cables.   Composites Part B: Engineering 2017(111):235-242.(SCI, IF=4.727)
 
  4. Rong-gui Liu, Shu Ping, Jie Yin*, Jun-jie   Huang, Dan Liu, Gui-hua Xie (2017.9). Analysis of parameters and influence   factors on a piezoresistance model of CFRP materials [J]. Construction and   Building Materials, 2017(157): 546-553. (SCI, IF=3.169)
 
  5. Hua Yu, Jie Yin, Ali Soleimanbeigi*,   William J. Likos (2017.10). Effects of Curing Time and Fly Ash Content on   Properties of Stabilized Dredged Material. Journal of Materials in Civil   Engineering. 2017,29(10). (SCI, IF=1.644)
 
  2016（*Corresponding   author）
 
  1.Jie Yin*, Ali Soleimanbeigi, William J.   Likos, and Tuncer B. Edil (2016.2), Compression Behavior of Foundry Sands.   Geotechnical and Structural Engineering Congress 2016.2, 1392-1403.(EI)
 
  2.Jie Yin*, Ali Soleimanbeigi, Benjamin J.   Warren, William J. Likos, and Tuncer B. (2016.2), Edil.Creep behavior of   recycled asphalt pavement compacted at elevated temperatures. Geotechnical   and Structural Engineering Congress 2016.2, 1426-1434.(EI)
 
  3.Rong-gui Liu, Zhao-hui Xu, Jie Yin*, Jun-jie   Huang, Dan Liu, Gui-hua Xie(2016.7). A coupled mechanical and electrical   model concerning piezoresistive effect of CFRP materials. Composites Part B:   Engineering. 2016(96): 125-135.(SCI, IF=4.727)
 
  4.Dong-sheng Cai, Zhao-hui Xu, Jie Yin*,   Rong-gui Liu , Ge Liang(2016.6), A numerical investigation on the performance   of composite anchors for CFRP tendons. Construction and Building Materials,   2016(112): 845-855. (SCI, IF=3.169)
 
  2015（*Corresponding   author）
  1.Dong-sheng Cai, Jie Yin*, Rong-gui Liu   (2015.10), Experimental and analytical investigation into the stress   performance of composite anchors for CFRP tendons. Composites Part B:   Engineering, 2015, 79:530-534. (SCI, IF=4.727)
 
  2.Gui-zhong Xu*, Yu-feng Gao, Jie Yin, Rui-min   Yang, Jun-jun Ni, (2015.8), Compression behavior of dredged slurries at high   water contents[J]. Marine Georesources & Geotechnology, 33(2) 99-108.（SCI, IF=1.159）
 
  3.Gui-Zhong Xu*, Jie Yin (2015.11),   “Compression behavior of secondary clay minerals at high initial water   contents”[J], Marine Georesources & Geotechnology,34(8):721-728. （SCI, IF=1.159）
 
  4.Jie Yin*, Yong-hong Miao (2015.1). An   oedometer-based method for preparing reconstituted clay samples[J], App.   Mech. & Mater. Vols. 719-720, pp 193-196.
 
  Before 2014（*Corresponding author）
 
  1.Yong-hong Miao,Jie Yin*, (2014.12),   Reliability assessment on prediction of pile bearing capacity. Proceedings of   the Institution of Civil Engineers: Urban Design and Planning,167(6):   272-279(EI: 20153001059610)
 
  2.Jie Yin*, Yong-hong Miao (2013.7). Undrained   shear strength characteristics of natural silty clay. Applied Mechanics and   Materials, 405-408. (EI: 20134516950641)
 
  3.Jie Yin*(2012.8). Mechanical behavior of   reconstituted clay samples prepared by large diameter oedometer. 2012, In the   2nd International Conference on Civil Engineering and Urban Planning (CEUP),   362-368.（EI：20123815442832）
 
  4. Zhen-Shun Hong*, Jie Yin, Yu-Jun   Cui(2010.10). Compression behaviour of reconstituted soils at high initial   water contents, Géotechnique, 60(9): 691-700.( SCI,IF=2.395)

Email

Email：yinjie@ujs.edu.cn