政治面貌

中共党员

最高学位

博士

职　　称

教授

任职年月

2020/6

职　　务

任职年月

所在学科

土木工程

博导/硕导

硕导(留学生博导)

学习与工作经历

学习经历：

■  博士      2013.04至2016.03   九州工业大学(日本)  土木与建筑工程

■  硕士      2011.10至2013.03   九州工业大学(日本)  土木与建筑工程

■  本科   (国际交换生)  

2010.04至2011.03   九州工业大学(日本)  土木与建筑工程

■  本科      2007.09至2011.07   河南科技大学 土木工程

工作经历：

■  2020.06至现在 

江苏大学，土木工程与力学学院，教授

■  2019.09至2020.05  

江苏大学，土木工程与力学学院，资格教授

■  2016.04至2019.08  

日本株式会社大林组（OBAYASHI CORPORATION）

总公司设计二部主任等

学术与社会任职

◇江苏大学青年英才-优秀青年学术带头人

◇信阳市灵石科技有限公司 技术副总监（兼职）

◇江苏省标准化专家库专家

◇日本土木学会会员 

◇日本混凝土工学会：混凝土技士

◇日本技术士会：技术士第一次考试通过

◇“Cement and Concrete Composites”、 “ACI Structural Journal”、“ACI Materials   Journal”、   “Journal of Advanced Concrete Technology”、《工程力学》、《复合材料学报》等期刊审稿人、EI期刊《材料导报》青年编委

主讲课程

结构力学A(II)、土木工程材料A、土木工程专业导论、Steel   Structure Design (留学生)、Advanced   Theory of Concrete Structures (留学硕士生)

研究领域

◇ 低碳混凝土结构基本性能及耐久性 ◇ 桥梁工程    ◇ 新型建筑材料开发  ◇工业废弃物再利用 ◇ 微生物矿化在建材中的应用 ◇大规模有限元分析 等

科研项目

1. 混凝土膨胀引起弯折钢筋脆断及其对构件力学性能影响的研究,   国家自然科学基金青年项目, 主持;

2. 碱骨料反应造成桥梁结构力学性能劣化机理和控制研究,   江苏大学高级人才科研启动基金, 主持;

3. 针对碱骨料反应造成混凝土桥梁结构劣化的机理及性能提升研究, 江苏省博士后科研资助, 主持;

4. 基于工业废弃物制备绿色超高强石膏基水泥的技术开发,   企业技术开发, 主持;

5. 不同养护工艺下PHC桩混凝土力学性能与微观结构的规律及关联机制研发, 企业技术开发, 主持;

6. 固碳增强型低能耗混凝土养护工艺的研发, 企业技术开发, 主持;

7. 固碳增强型低能耗混凝土养护工艺及再利用关键技术研发,   企业技术开发, 主持;

8.基于工业及建筑废弃物的低碳高性能混凝土制备关键技术开发，企业技术开发，主持；

9. 超大跨桥梁用缆索系统全寿命周期性能评估及保障技术研究,   企业技术开发, 参与;

10. 鄱阳湖特大桥PC工法桩基坑围堰结构施工监测与分析, 企业技术服务, 参与;

11. 预制桩新型机械连接接头研发，企业技术开发, 参与;

12. Detailed   investigation of damage mechanizm of the bridge due to Great East Japan   Earthquake,  Grant-in-Aid for Scientific Research (A), 参与;

13.  Fracture   mechanism of stirrups suffering ASR damage,  Grant-in-Aid for   Challenging Exploratory Research, 参与;

主要论著

◇ 杂志论文(Papers in   Peer-Reviewed Journals)      

[1]       Zheng, Y., Kosa, K., Yasuo, F. and Kusano, M, “Estimation   of Effective Prestress based on Stress-releasing Method and FEM Analysis of   the Method”, Journal of Structural Engineering. A, Japan Society of Civil   Engineers, Vol. 58A, pp. 599-610, Mar. 2012

[2]       Zheng, Y., Kosa, K., Shimizu, H. and Fu, L., “Damage   to Structures in Rikuzentakata Region due to Tsunami”, Proceedings of the   Japan Concrete Institute, Japan Concrete Institute, Vol. 34, No. 2, pp. 811-816,   Jun. 2012

[3]       Fu, L., Kosa, K.,   Shimizu, H. and Zheng, Y., “Damage to Structures due To Tsunami and   Evaluation　of Tsunami Velocity in Shizugawa”, Proceedings of the Japan Concrete   Institute, Japan Concrete Institute, Vol. 34, No. 2, pp. 805-810, Jun. 2012

[4]       Zheng, Y., Kosa, K. and Sasaki, T., “Damage   Analysis of Bridges Due to Tsunami”, Proceedings of the Symposium on   Developments in Prestressed Concrete, Japan Prestressed Concrete Institute,   Vol. 21, pp. 35-40, Oct. 2012

[5]       Zheng, Y., Kosa, K. and Sasaki, T., “Tsunami   damage analysis for bridges in Shizugawa area”, Journal of Structural   Engineering. A, Japan Society of Civil Engineers, Vol. 59A, pp. 439-449, Mar.   2013

[6]       Sasaki, T., Kosa, K.   and Zheng, Y., “Damage analysis of bridge based on the ratio of   resistance force of the girder and acting force of the tsunami”, Journal of   Structural Engineering. A, Japan Society of Civil Engineers, Vol. 59A, pp.   417-427, Mar. 2013

[7]       Zheng, Y., Kosa, K. and Sasaki, T., “Evaluation of   Bridge Outflows due to Great Tsunami”, Proceedings of the Japan Concrete   Institute, Japan Concrete Institute, Vol. 35, No. 2, pp. 841-846, Jun. 2013

[8]       Zheng, Y., Kosa, K., Uehara, N. and Wang, J., “Evaluation   for Deformation of Stirrups in ASR-simulation Specimens”, Proceedings of the   Japan Concrete Institute, Japan Concrete Institute, Vol. 36, No. 1, pp.   1126-1131, Jun. 2014

[9]       Zheng, Y., Kosa, K. and Uehara, N., “Evaluation   for ASR-induced Degradation through FEM Simulations”, Proceedings of the   Symposium on Developments in Prestressed Concrete, Japan Prestressed Concrete   Institute, Vol. 23rd, pp. 229-234, Oct. 2014

[10]  Zheng, Y.,   Kosa, K., Uehara, N. and Wang, J., “Experimental Simulations of Structures   suffering ASR-induced Damage”, Journal of Structural Engineering. A, Japan   Society of Civil Engineers, Vol. 61A, pp. 683-693, Mar. 2015

[11]  Zheng, Y.,   Kosa, K. and Uehara, N., “Experimental and Analytical Evaluations of   ASR-induced Damage”, Proceedings of the Japan Concrete Institute, Japan   Concrete Institute, Vol. 37, No. 1, pp. 589-594, Jun. 2015

[12]  Uezono, Y.,   Kosa, K., Uehara, N. and Zheng, Y., “Evaluation for Variation of   Prestress in PC beam suffering ASR”, Proceedings of the Japan Concrete   Institute, Japan Concrete Institute, Vol. 37, No. 1, pp. 595-600, Jun. 2015

[13]  Uezono, Y.,   Kosa, K., Zheng, Y. and Uehara, N., “Evaluation for ASR-induced   Degradation in PC beam based on FEM Analysis”, Proceedings of the Symposium   on Developments in Prestressed Concrete, Japan Prestressed Concrete   Institute, Vol. 24th, pp. 267-272, Oct. 2015

[14]  Zheng, Y.,   Kosa, K. and Uehara, N., “Analytical Evaluation of Movement Behavior for   Specimens Simulating ASR”, Journal of Structural Engineering. A, Japan   Society of Civil Engineers, Vol. 62A, pp. 814-826, Mar. 2016

[15]  Uezono, Y., Kosa, K., Zheng, Y.   and Yano, Y., “Analytical Evaluation of Deformation Behavior for PC   Structures Deteriorated by ASR”, Proceedings of the Japan Concrete Institute,   Japan Concrete Institute, Vol. 38, No.1, pp. 699-704, Jun. 2016

[16]  Zheng, Y.,   Kosa, K. and Uehara, N., “Evaluation of Stirrup Ruptures Through Experimental   and Analytical Simulations of ASR Expansion”, Journal of JSCE, Japan Society   of Civil Engineers, Vol. 5 Issue 1, pp. 402-421, 2017

[17]  Zheng, Y.,   Ni, M., Lu, C.*, Chu, T. and Wu, X., “Bond Behavior of GFRP-concrete Under   Long-term Exposure to Aggressive Environments”, Journal of Advanced Concrete   Technology, Vol. 18, pp. 730-742, 2020

[18]  Lu, C., Bu, S.,   Zheng, Y.*, Kosa, K., “Deterioration of concrete mechanical properties   and fracture of steel bars caused by alkali-silica reaction: A review”,   Structures, 35(9), pp. 893-902, 2022

[19]  Lu, C., Bu, S.,   Shahin, MA., Zheng, Y.*, Cheng, L.*, “Mitigation of alkali-silica   reaction by microbially induced CaCO₃ protective layer on   aggregates”, Construction and Building Materials, 328(2):127065, 2022

[20] 机制砂混凝土抗压强度分析及预测，陶松涛，延永东，郑玉龙，刘甲琪，梁晓封，王鑫，混凝土与水泥制品. 2022, (08): 96-104;

[21] 掺硅灰混凝土抗压强度理论分析及计算模型，宋泽鹏，陆春华，郑玉龙，蔡启明，张菊连，混凝土. 2022, (09), 89-92;

[22] Durability of   Nano-Reinforced Recycled Aggregate Concrete under Load and Chloride Ingress, Yan   Y, Si Y, Zheng Y*, Wang X, Materials, 2022, 15, 6194;

[23] (封面论文)弯折箍筋时的初期损伤及其对力学性能的影响, 郑玉龙，刘翔，陆春华*，步森壮，幸左贤二, 材料导报, 2022, 36(23), 21110130;

[24] Effect evaluation of   microbial mineralization for repairing load-induced crack in concrete with a   cyclic injection-immersion process, Lu C, Ge H, Li Z and Zheng Y*,   Case Studies in Construction Materials, 2022, 17, e01702;

[25] Long-term tensile   performance of GFRP bars in loaded concrete and aggressive solutions, Lu C,   Qi Z, Zheng Y*, Xuan G, Yan Y, Journal of Building Engineering, 2023,   64, 105587;

[26] 两种养护制度下C100高强混凝土韧性对比试验研究,   张虹宇, 郑玉龙, 陆春华, 硅酸盐通报, 2023;

[27] 弯折钢筋初期损伤形成的规律及机制研究, 郑玉龙, 孙玉涛, 陆春华*, 刘翔, 幸左贤二, 工程力学, 2023;

[28] An approach of   repairing concrete vertical cracks using microbially induced carbonate   precipitation driven by ion diffusion, Lu, C., Li, Z., Wang, J., Zheng, Y.*,   Cheng, L., Journal of Building Engineering, 2023, 106798 ;

[29] (封面论文)基于固废磷石膏制备胶凝材料的工艺及机制，郑玉龙*，嵇帅，陆春华，孙玉涛，赵航，复合材料学报，2023；

[30] Experimental study of   initial damage to steel bars due to bending process and the resulting   performance deterioration,   Y.L. Zheng*, Y.T Sun, H.R. Lin, J.Q. Wang*, X. Liu*, C.H. Lu,   Construction and Building Materials, Volume 411, 2024, 134326;

[31] Efficient inhibition   of ASR by microbially induced calcium carbonate precipitation on aggregates   at a low degree of saturation, S.Z Bu, Y.L. Zheng*, C.H. Lu, L. Cheng,   Journal of Building Engineering, Volume 84, 2024, 108516;

[32] 微生物矿化抑制碱-硅酸反应的试验与机制探索，郑玉龙*， 林鸿儒, 陆春华, 王景全, 复合材料学报，2024；

◇ 会议论文(Papers in Conference Proceedings)      

[33] Zheng, Y. and Kosa, K., “Estimation of effective   prestress in PC slab based on FEM analysis”, 14th DIANA Users Meeting, JIP   Techno Science Corporation, Vol. 14, 12 pages, Dec. 2010

[34] Zheng, Y., Kosa, K., Yasuo, F. and Shimizu, H., “Estimation   for Effective Prestress in PC Slabs of Kanmon Roadway Tunnel”, 66th Annual   Conference of JSCE, Japan Society of Civil Engineers, Vol. 66, pp. 203-204,   Sep. 2011

[35] Zheng, Y., Kosa, K., Shimizu, H. and Fu, L., “Damage   to Structures in Rikuzentakata Region Due to Tsunami”, 2012 Annual Workshop   of West Section, Japan Society of Civil Engineers, Vol. 23, pp. 737-738, Mar.   2012

[36] Zheng, Y., Kosa, K. and Fu, L., “Evaluation for   Outflow of Girder due to Tsunami”, 67th Annual Conference of JSCE, Japan   Society of Civil Engineers, Vol. 67, pp. 57-58, Sep. 2012

[37] Zheng, Y., Kosa, K. and Sasaki, T., “Tsunami   Propagation Analysis in Shizugawa District based on Recorded Videos”,   Proceedings of the 15^th Symposium on Ductility Design Method for   Bridges, Japan Society of Civil Engineers, Vol. 15, pp. 81-88, Jul. 2012

[38] Sasaki, T., Kosa, K.   and Zheng, Y., “Damage Evaluations on Bridges based on Ratio of   Resistance and Tsunami Impact Force”, Proceedings of the 15^th   Symposium on Ductility Design Method for Bridges, Japan Society of Civil   Engineers, Vol. 15, pp. 89-96, Jul. 2012

[39] Zheng, Y., Kosa, K. and Sasaki, T., “Analysis of   Bridge Girder Outflows due to Great Tsunami”, 2013 Annual Workshop of West   Section, Japan Society of Civil Engineers, Vol. 24, pp. 85-86, Mar. 2013

[40] Zheng, Y., Kosa, K., Uehara, N. and Wang, J., “Evaluation   for Fracture of Rebar Due to ASR Expansion”, 68th Annual Conference of JSCE,   Japan Society of Civil Engineers, Vol. 68, pp. 1021-1022, Sep. 2013

[41] Wang, J., Kosa, K.,   Uehara, N. and Zheng, Y., “An Experiment of Simulating the Stirrup   Fracture due to ASR”, 68th Annual Conference of JSCE, Japan Society of Civil   Engineers, Vol. 68, pp. 1023-1024, Sep. 2013

[42]  Wang, J., Kosa,   K., Uehara, N. and Zheng, Y., “Deterioration Behaviors in Exterior and   Interior of Concrete Specimens Damaged by ASR”, The Seventh International   Conference on Concrete under Severe Conditions-Environment and Loading, Vol.   7, 9 pages, Sep. 2013

[43]  Zheng, Y.,   Kosa, K., Uehara, N. and Wang, J., “Experimental and Analytical Simulations   of Structures Suffering ASR-induced Damage”, 16th DIANA Users Meeting, JIP   Techno Science Corporation, Vol. 16, 12 pages, Dec. 2013

[44]  Wang, J., Kosa,   K., Uehara, N. and Zheng, Y., “Evaluation for Movements of Stirrups   Due to ASR Expansion”, 2014 Annual Workshop of West Section, Japan Society of   Civil Engineers, Vol. 25, pp. 689-690, Mar. 2014

[45]  Zheng, Y.,   Kosa, K. and Uehara, N., “Evaluation of Damage Conditions in ASR-Affected   Structures”, 69th Annual Conference of JSCE, Japan Society of Civil   Engineers, Vol. 69, pp. 973-974, Sep. 2014

[46]  Wang, J., Kosa,   K., Uehara, N. and Zheng, Y., “Evaluation for External and Internal   Damages induced by ASR”, 69th Annual Conference of JSCE, Japan Society of   Civil Engineers, Vol. 69, pp. 975-976, Sep. 2014

[47]  Uezono, Y.,   Kosa, K., Uehara, N. and Zheng, Y., “Analytical Evaluations on   Deterioration Behavior of PC beam”, 17th DIANA Users Meeting, JIP Techno   Science Corporation, Vol. 17, 8 pages, Dec. 2014

[48]  Zheng, Y.,   Kosa, K. and Uehara, N., “Deformation Behavior of Structures suffering   ASR-induced Damage”, 2015 Annual Workshop of West Section, Japan Society of   Civil Engineers, Vol. 26, pp. 639-640, Mar. 2015

[49]  Zheng, Y.,   Kosa, K. and Uehara, N., “Simulations for Deformation Behavior of Structures   due to ASR”, 70th Annual Conference of JSCE, Japan Society of Civil   Engineers, Vol. 70, pp. 1089-1090, Sep. 2015

[50]  Uezono, Y.,   Kosa, K. and Zheng, Y. and Uehara, N., “Evaluation of Degradation due   to ASR for PC Specimen by Analytical Simulations”, 18th DIANA Users Meeting,   JIP Techno Science Corporation, Vol. 18, 10 pages, Oct. 2015

[51]  Kosa, K., Zheng, Y. and Uehara,   N., “Stirrup Ruptures through Experimental and Analytical Simulations”, 16th   International Conference on Alkali Aggregate Reaction in Concrete, Vol. 16,   Lisboa Portugal, May. 2022

[52]  郑玉龙，陆春华，幸左贤二，上原伸郎，混凝土膨胀作用引发结构损伤的试验与数值模拟研究，第2届土木工程计算与仿真技术学术会议，北京，2021-05

获奖情况

●  奖学金

Ø  国家优秀自费留学生奖学金(2015年)

Ø  罗大力米山纪念奖学金(2015年度)

Ø  九州工业大学100周年纪念事业奖学金(2013年)

Ø  九州工业大学100周年纪念事业奖学金(2014年)

Ø  日本学生支援机构（JASSO）留学生交流支援制度奖学金(2010年)

●  学术表彰

Ø  江苏大学青年英才-优秀青年学术带头人

Ø  第九届江苏省高校土木工程专业青年教师讲课竞赛二等奖

Ø  日本预应力混凝土工学会论文赏

Ø  日本土木学会年度学术演讲会优秀演讲者表彰

Ø  投稿论文获得日本混凝土工学会审稿委员会高度评价

发明专利

1.     Cheng,   Liang; Lu, Chunhua and Zheng, Yulong, In-Situ Repair Method for Facade   Surface Cracks by Microbially Induced Calcium Carbonate Precipitation,   Innovation Patent; Australian Government (IP Australian), 2021103785;

2.     微生物诱导碳酸钙沉淀原位修补立面表面裂缝的方法，成亮，陆春华，郑玉龙，2022，国家发明专利，202110553116.8;

3.     一种规范施工操作的钢筋弯曲装置，郑玉龙，刘翔，陆春华，孙玉涛，仇哲豪，房一剑，2024，国家发明专利，202111483005.0；

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Email：zylcivil@ujs.edu.cn