个人简介

个人简介 周英武，博士/教授，博士生导师，国家自然科学基金优秀青年基金获得者，深圳大学土木工程学院特聘教授，广东省滨海土木工程重点实验室副主任。长期从事FRP-混凝土结构、绿色混凝土材料、高性能（高韧性）混凝土、混凝土结构耐久性与延性等方面的研究。 近年主持和参加各级科研项目20项：主持国家及省市级等项目9项，主要包括主持国家自然科学基金优秀青年基金1项，国家自然科学基金青年基金1项，面上项目3项以及深圳市基础研究项目3项；参与科技部973项目、国家自然科学基金重点项目和重点国际合作项目子课题各1项。发表学术论文80余篇：在ACI、ASCE等SCI收录期刊上发表论文50余篇。授权中国发明专利12项，授授权实用新型专利10余项。近年来，获人才基金及荣誉3项，获广东省科学技术发明奖一等奖1项。 E-mail: ywzhou@szu.edu.cn 电话: +86-755-26916424；+86-15814706552 (mobile) 地址: 深圳大学土木工程学院C502 教育经历: 03/2005-03/2009 大连理工大学，结构工程， 博士 09/2003-02/2005 大连理工大学，结构工程， 硕士 09/1999-06/2003 大连理工大学，土木工程， 学士 工作经历: 01/2017-今 深圳大学土木工程学院，特聘教授 01/2013-12/2016 深圳大学土木工程学院，副教授 09/2010-12/2012 深圳大学土木工程学院，讲师 08/2011-12/2013 香港理工大学，博士后（校方资助） 07/2010-08/2010 香港城市大学，研究员(Research Fellow) 07/2009-06/2010 香港城市大学，副研究员(Research associate) 08/2007-06/2009 香港城市大学，研究助理(Research Associate)

研究领域

长期从事FRP-混凝土结构、绿色混凝土材料、高性能（高韧性）混凝土、混凝土结构耐久性与延性等方面的研究。

科研项目: 近年主持和参加各级科研项目20余项：主持国家及省市级等项目9项，主要包括主持国家自然科学基金优秀青年基金1项，国家自然科学基金青年基金1项，面上项目3项以及深圳市基础研究项目3项；参与科技部973项目、国家自然科学基金重点项目和重点国际合作项目子课题各1项。 主持的国家级科研项目 [1] 国家自然科学基金优秀青年基金，51622808，滨海FRP混凝土结构，2017/01-2019/12，150万元，在研，主持。 [2] 国家自然科学基金面上项目，51878414，多重复材混合修复滨海劣化混凝土结构的高效增强机理与耐久性研究，2019/01-2022/12，74.4万元，在研，主持。 [3] 国家自然科学基金面上项目，51578338，FRP-再生骨料海砂混凝土组合结构的力学与抗震性能及耐久性研究，2016/01-2019/12，73.4万元，在研，主持。 [4] 国家自然科学基金面上项目，51378314，FRP-混凝土界面剥离控制机理及其对结构加固性能二次提升研究，2014/01-2017/12， 80万元，在研，主持。 [5] 国家自然科学基金青年，51108272，滨海环境侵蚀下FRP-混凝土界面粘结性能的劣化机理和耐久性，2012/01-2014/12，25万元，已结题，主持。 [6] 国家自然科学基金重点项目“滨海钢筋混凝土结构全寿命性能智能调控与提升体系研究（51538007）”子课题，CFRP阴极保护与结构加固“双重”修复下滨海钢筋混凝土结构性能，2016/1-2020/12，20万元，在研，主持。 [7] 国家自然科学基金重点国际(地区)合作研究项目“滨海混凝土结构耐久性研究（51520105012）滨海混凝土结构耐久性研究”子课题，约束应力与持荷作用下锈蚀钢筋-混凝土粘结滑移关系动力特性研究，2016/1-2020/12，10万元，在研，主持。 [8] 科技部973项目第四课题，“近海重大交通工程结构抗震性能劣化机理与时变规律（2011CB013604）”子课题，海蚀环境与复杂应力耦合状态下钢筋‐混凝土界面粘结特性，2011/12-2016/8，12万元，在研，主持。 主持的省市级科研项目 [9] 深圳市国际合作研究项目，GJHZ20170314105503899，资源可持续型绿色混凝土组合结构研发及其性能研究，2017/10-2019/10，50万元，在研，主持。 [10] 深圳市基础研究项目，JCYJ20150828155800601.0，FRP 增强再生骨料-海砂混凝土结构的基础力学性能研究，2015/12-2017/12，30万元，在研，主持。 [11] 深圳市海外高层次人才创新创业计划，KQCX20140519105054690，低碳节能型绿色复合材料及其高性能化应用研究，2014/10-2016/10，60万元，在研，主持。 [12] 深圳大学自然科学基金应用研究项目，201228，一种高耐久、高延性、高强度的新型HB-FRP加固混凝土结构技术的研发，2012/06-2014/06，8万元，已结题，主持。 [13] 深圳大学自然科学基金基础研究项目，120201120，表面粗糙度对FRP-混凝土界面粘结性能的影响，2011/06-2013/06，5万元，已结题，主持。 [14] 深圳市土木工程耐久性重点实验室开放基金，SZDCCE11-06，FRP约束锈蚀钢筋混凝土柱的力学性能研究，2011/07-2012/12，2.5万元，已结题，主持。 近5年参与的国家级科研项目 [15] 国家自然科学基金面上项目，恶劣环境与荷载作用下FRP约束混凝土柱的应力应变本构关系研究（51178271），项目负责人：隋莉莉，2012/1-2015/12，63万元，已结题，第一参与人。

近期论文

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部分SCI论文 (#) =first author; (*)=corresponding author. [45] Muhammad Junaid Munir (#), Syed Minhaj Saleem Kazmi, Yufei Wu(*), Indubhushan Patnaikuni, Yingwu Zhou, Feng Xing. Axial stress-strain behavior of macro-synthetic fiber reinforced recycled aggregate concrete, Cement and Concrete Composites 97 (2019) 341–356. [44] Cheng Chen(#), Xue Li, Debo Zhao, Zhenyu Huang, Lili Sui, Feng Xing, Yingwu Zhou(*). Mechanism of surface preparation on FRP-Concrete bond performance: A quantitative study. Composites Part B 163 (2019) 193–206. [43] Yingwu Zhou(#), Menghuan Guo, Lili Sui, Feng Xing, Biao Hu(*), Zhenyu Huang, Yanchun Yun. Shear strength components of adjustable hybrid bonded CFRP shearstrengthened RC beams. Composites Part B 163 (2019) 36–51. [42] Pengda Li(#), Yu-Fei Wu(*), Yingwu Zhou, Feng Xing. Stress-strain model for FRP-confined concrete subject to arbitrary load path. Composites Part B 163 (2019) 9–25. [41] Yingwu Zhou(#), Yaowei Zheng, Lili Sui, Feng Xing, Jingjing Hu, Pengda Li(*). Behavior and modeling of FRP-confined ultra-lightweight cement composites under monotonic axial compression. Composites Part B 162 (2019) 289–302. [40] Yingwu Zhou(#), Yaowei Zheng, Jun Pan, Lili Sui, Feng Xing, Hongfang Sun, Pengda Li(*). Experimental investigations on corrosion resistance of innovative steel-FRP composite bars using X-ray microcomputed tomography. Composites Part B 161 (2019) 272–284. [39] Cheng Chen(#), Xue Li, Xiaowei Wang, Lili Sui, Feng Xing, Dawang Li, Yingwu Zhou(*). Effect of transverse groove on bond behavior of FRP-concrete interface: Experimental study, image analysis and design. Composites Part B 161 (2019) 205–219. [38] Zhenyu Huang(#), Fang Wang, Yingwu Zhou, Lili Sui, Padmaja Krishnan and Jat-Yuen. Richard Liew. A Novel, Multifunctional, Floatable, Lightweight Cement Composite: Development and Properties. Materials 2018, 11, 2043; doi:10.3390/ma11102043 [37] Cheng Chen(#), Xiaowei Wang, Lili Sui, Feng Xing, Xilong Chen, Yingwu Zhou(*). Influence of FRP thickness and confining effect on flexural performance of HB-strengthened RC beams. Composites Part B 161 (2019) 55–67. [36] Pengda Li(#), Lili Sui, Feng Xing, Yingwu Zhou(*). Static and cyclic response of low-strength recycled aggregate concrete strengthened using fiber-reinforced polymer. Composites Part B: Engineering 160 (2019) 37–49. [35] Pengda Li(#), Lili Sui, Feng Xing, Xiaoxu Huang, Yingwu Zhou(*), and Yanchun Yun. Effects of Aggregate Types on the Stress-Strain Behavior of Fiber Reinforced Polymer (FRP)-Confined Lightweight Concrete. Sensors 2018, 18, 3525; doi:10.3390/s18103525. [34] Xiaoxu Huang(#), Lili Sui, Feng Xing, Yingwu Zhou(*), Yufei Wu. Reliability assessment for flexural FRP-Strengthened reinforced concrete beams based on Importance Sampling. Composites Part B: Engineering, 2019,156: 378-398. (SCI/EI) [33] Chen, C. (#), Cheng, L., Sui, L. L., Xing, F., Li, D. W., and Zhou, Y.W. (*). “Design Method of End Anchored FRP Strengthened Concrete Structures.” Engineering Structures, 2018, 176: 143-158. (SCI/EI) [32] Pengda Li(#), Lili SUI, Feng XING, Mali LI, Yingwu ZHOU(*), Yufei WU, Stress-strain relation of FRP-confined predamaged concrete prisms with square sections of different corner radii subjected to monotonic axial compression. ASCE's Journal of Composites for Construction, accepted, 2018. (SCI/EI) [31] Yufei Wu(#), Yingwu Zhou, Biao Hu, Xiaoxu Huang, Scott T. Smith(*), Fused Structures for Safer and More Economical Constructions. Frontiers of Structural and Civil Engineering, accepted, 2018. (SCI/EI) [30] Yingwu Zhou(#), Xiaowei Wang, LiliSui, Feng Xing, Yufei Wu, and Cheng Chen(*), Flexural performance of FRP-plated RC beams using H-type end anchorage. Composite Structures, 2018, 206:11–21. (SCI/EI) [29] Yingwu Zhou(#), Xiaowei Wang, Lili Sui, Feng Xing, Zhenyu Huang, Cheng Chen, Pengda Li, and Liu Mei(*). Effect of mechanical fastening pressure on the bond behaviors of hybrid-bonded FRP to concrete interface. Composite Structures, 2018, 204:731–744. (SCI/EI) [28] Yingwu Zhou(#), Bin Xi, Kequan Yu, Lili Sui and Feng Xing(*). Mechanical Properties of Hybrid Ultra-High Performance Engineered Cementitous Composites Incorporating Steel and Polyethylene Fibers. Materials 2018, 11, 1448; doi:10.3390/ma11081448. (SCI/EI) [27] Lili Sui(#), Qianli Zhong, Kequan Yu, Feng Xing, Pengda Li and Yingwu Zhou(*). Flexural Fatigue Properties of Ultra-High Performance Engineered Cementitious Composites (UHP-ECC) Reinforced by Polymer Fibers. Polymers 2018, 10, 892; doi:10.3390/polym10080892.(SCI/EI) [26] Pengda Li(#), Yu-FeiWu(*), Yingwu Zhou, Feng Xing. Cyclic Stress-Strain Model for FRP-Confined Concrete Considering Post-Peak Softening. Composite Structures, 2018, 201: 902-915. (SCI/EI) [25] Chen, C. (#), Sui, L. L., Xing, F., Li, D. W., Zhou, Y. W. (*)and Li, P. D. Predicting Bond Behavior of HB FRP Strengthened Concrete Structures Subjected to Different Confining Effects. Composite Structures, 2018, 187: 212-225. [24] Dawang Li(#), Ren Wei, Feng Xing, Yingwu Zhou(*), Wenyu Wang. Influence of Non-uniform corrosion of steel bars on the seismic behavior of reinforced concrete columns. Construction & Building Materials, 2018, 167:20-32. [23] Lili Sui(#), Minshen Luo, Kequan Yu, Feng Xing, Pengda Li, Yingwu Zhou(*), Cheng Chen. Effect of engineered cementitious composite on the bond behavior between fiber-reinforced polymer and concrete. Composite Structures, 2018, 184:775–788. (SCI/EI) [22] Yingwu Zhou(#), Leijun Dang, Lili Sui, Dawang Li, Xuemei Zhao, Feng Xing(*), Yufei Wu. Experimental Study on the Bond Behavior between Corroded Rebar and Concrete under Dual Action of FRP confinement and Sustained Loading. Construction and Building Materials, 2017, 155: 605-616. (SCI/EI) [21] Yingwu Zhou(#), Xilong Chen, Zhiheng Fan, Lili Sui, Dawang Li, Feng Xing(*). Bond behaviors of FRP-to-concrete interface under the control of a novel end-anchorage system. Composite Structures, 2017, 168;130-142. [20] Yingwu Zhou(#), Xiaoming Liu, Feng Xing, Dawang Li, Yaocheng Wang and Lili Sui(*). Behavior and Modeling of FRP-Concrete-Steel Double-Skin Tubular Columns Made of Full Lightweight Aggregate Concrete. Construction and building materials, 2017, 139:52-63. [19] Yingwu Zhou(#), Jingjing Hu, Mali Li, Lili Sui and Feng Xing(*). FRP-Confined Recycled Coarse Aggregate Concrete: Experimental Investigation and Model Comparison. Polymers, 2016, 8, 375; doi:10.3390/polym8100375 [18] Yingwu Zhou(#), Xiaoming Liu, Feng Xing, Hongzhi Cui and Lili Sui(*). Axial Compressive Behavior of FRP-confined Lightweight Aggregate Concrete: An Experimental Study and Stress-strain Relation Model, Construction and Building Materials, 2016, 119: 1-15. (SCI/EI) [17] YW Zhou(#), Li Mali, Sui LL(*), and Xing F. Effect of sulfate attack on the stress-strain relationship of FRP-confined concrete. Construction and Building Materials, 2016; 110: 235-250. (SCI/EI) [16] Y.W. Zhou(#), Z.H. Fan, J. Du, L.L.Sui(*), F.Xing. Bond Behavior of FRP-to-Concrete Interface under Sulfate Attack: An Experimental Study and Modeling of Bond Degradation, Construction and Building Materials, 2015, 85: 9-21. (SCI/EI) [15] Haijun Zhou(#), Jinlong Lu, Xi Xv, *Y.W. Zhou(*), Experimental Study of Bond-slip Performance of Corroded Reinforced Concrete under Cyclic Loading, Advances in Mechanical Engineering, 2015, 7(3):1-10. (SCI/EI) [14] H. Tian(#), Y. W. Zhou(*), L. L. Sui, and F. Xing. Evolution of the Sulfate Ion Transport-deterioration Process in Concrete, Anti-Corrosion Methods and Materials, 2016, 63(3):196-204 (SCI/EI). [13] Yingwu Zhou(#), Hao Tian, Hongzhi Cui, Feng Xing, and Lili Sui(*). Model for Sulfate Diffusion Depth in Concrete under Complex Aggressive Environments and its Experimental Verification, Advances in Materials Science and Engineering, 2015, 693834: 1-11(SCI/EI) [12] Y.W. Zhou(#), H. Tian, L.L. Sui(*), F. Xing, N.X. Han. Strength Deterioration of Concrete in Sulfate Environment: An Experimental Study and Theoretical Modeling, Advances in Materials Science and Engineering, 2015, 951209:1-13 (SCI/EI) [11] Y.W. Zhou(#), Liu Xiao Ming, Sui Lili, Xing Feng, Zhou Haijun(*)，Stress-Strain Model for FRP Confined Load-induced Damaged Concrete，Materials Research Innovations，2015, 19(6): 125-131. (SCI/EI) [10] Y.W. Zhou(#), Y.F. Wu(*). General model for constitutive relationships of concrete and its composite structures. Composite Structures, 2012, 94: 580–592. [9] Y.W. Zhou(#), Y.F. Wu(*), Y.C. Yun. Analytical modeling of the bond-slip relationship at FRP-concrete interfaces for adhesively-bonded joints. Composites Part B: Engineering, 2010, 41(6): 423-433. (SCI/EI) [8] Y.W. Zhou(#), Y.F. Wu(*), J.G. Teng and A.Y.T. Leung. Parametric space for the optimal design of compression-yielding FRP-reinforced concrete beams. Materials and Structures. 2010, 43(1-2): 81-97. (SCI/EI) [7] Y.W. Zhou(#), Y.F. Wu(*), J.G. Teng, A.Y.T. Leung. Ductility analysis of compression-yielding FRP-reinforced composite beams. Cement & Concrete Composites. 2009, 31(9): 682-691. (SCI/EI) [6] Y.F. Wu(#)(*), Y.W. Zhou. Controlling the Damage of Concrete Columns through Compression Yielding. Structural Control and Health Monitoring. 2011, 18: 890-907. (SCI/EI) [5] Y.F. Wu(#)(*), Y.W. Zhou, X.Q. He. Performance-Based design of Compression-Yielding FRP-Reinforced Concrete Beams. Composite Structures, 2010, 93(1): 113-123. (SCI/EI) [4] Y.F. Wu(#)(*), Y.W. Zhou. Unified Strength Model Based on Hoek-Brown Failure Criterion for Circular and Square Concrete Columns Confined by FRP. Journal of Composites for Construction ASCE. 2010, 14(2): 175-184. (SCI/EI) [3] Wu YF(#)(*), Yun YC, Wei YY, Zhou YW. Effect of Predamage on the Stress-Strain Relationship of Confined Concrete under Monotonic Loading. Journal of Structural Engineering- ASCE. 2014; 04014093-1-18 (SCI/EI) [2] Y.F. Wu(#)(*), J. H. Yan, Y.W. Zhou, Y. Xiao. Ultimate Strength of Reinforced Concrete Beams Retrofitted with Hybrid Bonded FRP. ACI Structural Journal. 2010, 107(4): 451-460. (SCI/EI) [1] S.Y. Wang(#), Y.W. Zhou, H.N. Li(*). Shear Strength Prediction of RC Beams Wrapped with FRP. International Journal of Modern Physics B. 2008, 22(31-32): 5831-5837. (SCI/EI) 授权中国发明专利 [1] 周英武; 隋莉莉; 潘俊; 邢锋. 一种CFRP阳极的钢筋混凝土阴极保护装置和方法, 中国发明专利，ZL201610950990.4. [2] 周英武; 潘俊; 隋莉莉;邢锋; 朱继华. 一种CFRP嵌入阳极的钢筋混凝土阴极保护方法和装置, 中国发明专利，ZL201610843233.7. [3] 周英武; 隋莉莉; 潘俊; 邢锋. 一种CFRP阳极的钢筋混凝土阴极保护方法和装置, 中国发明专利，ZL201610842340.8 [4] 周英武; 吴凌壹; 邢锋; 隋莉莉; 张长平. 混凝土试样在应力作用下腐蚀试验的加载装置，中国发明专利，ZL 2014107784749. [5] 周英武; 吴凌壹; 邢锋; 隋莉莉; 张长平. 钢筋-混凝土粘结试样在应力作用下腐蚀试验的加载装置，中国发明专利，ZL201410778515.4. [6] 周英武; 邢锋，范志恒，隋莉莉. 一种可控FRP加固结构延性的方法及装置，中国发明专利，ZL201610089038.X. [7] 周英武; 邢锋;范志恒; 隋莉莉. 提高FRP加固结构延性和FRP利用率的方法及装置，中国发明专利，ZL201610089281.1. [8] 周英武; 田浩; 隋莉莉; 李泉清; 邢锋; 刘伟. 一种模拟滨海腐蚀环境的高温干湿循环自动化实验设备，中国发明专利，ZL2015100136699. [9] 周英武;田浩; 隋莉莉; 邢锋. 一种预测混凝土硫酸盐侵蚀深度的方法，中国发明专利，ZL2014106817001. [10] 隋莉莉; 邢锋; 李钟浩; 胡佳山; 李伟文，周英武. 具有良好耐久性能的复合磷铝酸盐粘结剂及其粘结方法，中国发明专利，ZL201310386835.0. [11] 隋莉莉; 邱桐; 邢锋; 周英武; 韩宁旭. 一种有效提高焊接质量兼延性破坏特征的栓钉剪力键，中国发明专利，ZL201410206162.0. [12] 李大望; 黄桐; 官晓涛; 磨季云，周英武，陈西.一种钢筋本构关系试验装置，中国发明专利，ZL201520165246.4