个人信息

男，1990年生，湖北宜昌人，研究生学历，工学博士学位（重庆大学），副教授，博士生导师，博士后合作导师。入选巴渝学者计划青年学者，重庆市学术技术带头人（后备），重庆市博士后创新人才支持计划，重庆交通大学青年拔尖人才。现就职于山区桥梁及隧道工程国家重点实验室，并担任土木工程学院教师，主要从事混凝土结构低碳设计和耐久性能方面的研究工作。

 

学术成就

发表学术论文50余篇，h指数17（h-index，2023），其中SCI/EI收录51篇，包括5篇ESI Highly Cited Papers，2篇ESI Hot Papers，1篇高PCSI论文。授权国内外专利5件，出版英文专著1部。主持国家自然科学基金、重庆市自科基金等科研项目5项，参研国家重点研发计划、国家自然科学基金联合基金重点项目等3项。担任SCI Research Topic第一客座主编（Lead Guest Editor for Frontiers in Materials and Buildings），JCSU（SCI二区）、长安大学学报（自然科学版）、混凝土与水泥制品、中外公路、交通科学与工程、市政技术等期刊青年编委，国际材料与结构研究实验联合会（RILEM）青年委员，297-DOC、298-EBD和MMS等TC Member。同时兼任Cement and Concrete Research、Cement and Concrete Composites、Composite Structures、Engineering Structures、Journal of Constructional Steel Research、Construction and Building Materials、土木工程学报、中国公路学报等国内外领域主流期刊特邀审稿人，受邀出席国内外学术会议并做主旨报告、特邀报告、口头汇报等10余次。研究成果获重庆市科技进步一等奖1项。

 

在研课题

国家自然科学基金项目（2022，主持）

重庆市自然科学基金项目（2023，主持）

国家自然科学基金联合基金重点项目（2020，主研）

重庆市联合基金重点项目（2023，主研）

重庆市教委重大科技项目（2023，主研）

重庆市杰出青年科学基金项目（2024，主研）

 

研究方向和招生概况

招生指标：每年招收博士研究生1-2名，硕士研究生2-4名

专业需求：土木类，材料类，MEM，等

课题组主要研究方向：

n  混凝土结构耐久性（博士深耕方向的延续）

n  高性能桥梁结构与性能提升（课题小组方向积累）

n  低碳混凝土设计理论与应用（当前及未来新方向）

 导师寄语：团队温馨互助、积极奋进，每届均有多位同学获得国家奖学金、国家CSC公派出国留学资格、优秀学位论文、优秀毕业生、科创项目等荣誉，同时具有丰富的科研试验和国内外学术交流机会，欢迎对上述研究方向感兴趣的同学加入我们，一起快乐科研。也鼓励有其他创新想法的同学来信与我交流

请通过邮件与我联系：zhangzhongya@cqjtu.edu.cn

 

代表性论文（近五年）

[1]       Zou Y, Zhou X, Jiang J, Yang J, Zhang Z, Liu L. Tensile performance of toughness enhanced interfaces for steel-UHPC composite bridge decks[J]. Construction and Building Materials, 2024. 449: 138355. (SCI一区TOP，通讯)

[2]       Li Y, Zhou H, Zhang Z, Yang J, Wang X, Wang X, Zou Y. Macro-micro investigation on the coefficient of friction on the interface between steel and cast-in-place UHPC[J]. Engineering structures, 2024. 318: 118769. (SCI一区TOP)

[3]       Yang J, Xia J, Zhang Z, Zhou J, Zou Y, Wang Y, Shen X. Mesoscopic shear behavior and strength characteristic of UHPC-NC interface considering the combined effect of mechanical interlocking and dowel action[J]. Engineering Fracture Mechanics, 2024. 307: 110306. (SCI一区TOP)

[4]       Xia J, Yang J, Zhang Z, Zou Y, Zhou J, Wang Z, Shen X, Kuang Y. Evaluating the performance of masonry arch strengthened with UHPC at extrados and intrados by experimental, numerical and analytical approaches[J]. Structures, 2024. 65: 106687. (SCI二区，通讯)

[5]       J. Leng, J. Yang, Z. Zhang, Y. Zou, J. Du, and J. Zhou, Mechanical behavior of a novel compact steel-UHPC joint for hybrid girder bridges: Experimental and numerical investigation. Journal of Constructional Steel Research 218 (2024) 108742. (SCI二区)

[6]       J. Xia, J. Zhou, J. Yang, Z. Zhang, and Y. Zou, Damage evolution and residual shear resistance of toughness-improved UHPC-NSC interface under high-stress level of fatigue shear loading. Construction and Building Materials 430 (2024) 136403. (SCI一区TOP)

[7]       H. Peng, Z. Zhang, J. Jiang, J. Yang, K. Yu, Z. Zhou, and Y. Zou, Pull-out behavior of cluster stud-post pouring UHPC connectors in prefabricated steel-concrete composite beam. Engineering Structures 309 (2024) 118082. (SCI一区TOP)

[8]       R. Chen, Z. Zhang, Y. Zou, J. Yang, J. Zhou, Y. Kuang, and Y. Wang, In-situ evaluation on existing RC beam strengthened with GFRP-reinforced UHPC overlay. Construction and Building Materials 429 (2024) 136363. (SCI一区TOP)

[9]       Zhou H, Zhang Z, Wu C, Wang H, Yang J, Zou Y. Shear performance of high-strength bolt-epoxy bonding composite connector in steel-concrete composite structure. Structures 2024, 61: 106085. (SCI二区)

[10]    Leng J, Yang J, Zhang Z, Du J, Zou Y, Zhou J. Effect of vehicle-induced vibration on the strength, nano-mechanical properties, and microstructural characteristics of ultra-high-performance concrete during hardening process[J]. Cement and Concrete Composites. 2024, 148: 105487. (SCI一区TOP)

[11]    Wu C, Wang X, Zhang Z, Zou Y, Yang J, Jin M, Lun X. Flexural behavior of embedded GFRP grid framework-UHPC composite plate without steel rebar[J]. Case Studies in Construction Materials, 2024. 20: e2900. (SCI二区)

[12]    Guo J, Zhou Z, Zhang Z, Tang J, Li X, Zou Y. Effects of alternating positive and negative temperature curing on the mechanical properties of ultra-high performance concrete[J]. Case Studies in Construction Materials, 2024. 20: e2752. (SCI二区)

[13]    Yang J, Wang Y, Zhang Z, Zou Y, Zhou J. Early-age shrinkage characteristic of UHPC in strengthening stone masonry arch: Influence of restraint from arch structure[J]. Structures, 2023. 58: 105465. (SCI二区，通讯作者)

[14]    Yang J, Yu J, Zhang Z, Zou Y, Chen R, Zhou J, Li B. Flexural behavior of 15-year-old full-scale hollow slab beams strengthened with fiber-reinforced composites[J]. Case Studies in Construction Materials, 2023. 19: e2545. (SCI二区，通讯作者)

[15]    Jiang J, Zhou Z, Wang H, Zou Y, Zhang Z, Liang H. Shear properties of composite steel plate connectors for prefabricated steel–concrete composite beams[J]. Structures, 2023. 58: 105360. (SCI二区)

[16]    Pang K, Zhou H, Wu C, Jiang H, Zhang Z, Yu Y, Zhang J. Study on behavior of waffle-type UHPC-GFRP composite slab under three-point loading[J]. Case Studies in Construction Materials, 2023. 19: e2457. (SCI二区)

[17]    Wang H, Zhou Z, Zhang Z, Zou Y, Jiang J, Zeng X. Experimental and numerical studies on shear behavior of prefabricated bridge deck slabs with compact UHPC wet joint[J]. Case Studies in Construction Materials, 2023. 19: e2362. (SCI二区)

[18]    Zou Y, Zhou H, Yang J, Zhang Z, Zheng K, Jiang J. Mechanical behavior of natural bonding interface in hollow steel-UHPC composite bridge deck. Journal of Constructional Steel Research 2023, 210: 108093. (SCI二区，通讯)

[19]    Leng J, Yang J, Zhang Z, Zou Y, Chen J, Zhou J. Experimental and numerical investigations on force transfer mechanism of steel-concrete joint in hybrid girder bridges. Structures 2023, 54: 153-170. (SCI二区)

[20]    Yang J, Chen R, Zhang Z, Zou Y, Zhou J, Xia J. Experimental study on the ultimate bearing capacity of damaged RC arches strengthened with ultra-high performance concrete. Engineering structures 2023; 279: 115611. (SCI一区TOP，通讯)

[21]    Zou Y., Jiang J., Li B., Zhang Z., Guo J. Enhancing the toughness of bonding interface in steel-UHPC composite structure through fiber bridging. Cement and Concrete Composites 2023; 137: 104947. (SCI一区TOP，通讯)

[22]    Zhang Z, Pang K, Xu L, Zou Y, Yang J, Wang C. The bond properties between UHPC and stone under different interface treatment methods[J]. Construction and Building Materials, 2023. 365: 130092. (SCI一区TOP)

[23]    Zou Y, Wu C, Zhang Z, Jiang J, Yu K, Wang X. Investigation on flexural behavior of novel GFRP grid web-concrete hybrid beam[J]. Engineering Structures, 2023. 278: 115489. (SCI一区TOP，通讯)

[24]    Zou Y, Zheng K, Zhou Z, Zhang Z, Guo J, Jiang J. Experimental study on flexural behavior of hollow steel-UHPC composite bridge deck[J]. Engineering Structures, 2023. 274: 115087. (SCI一区TOP，通讯)

[25]    Zou Y, Yu K, Heng J, Zhang Z, Peng H, Wu C, Wang X. Feasibility study of new GFRP grid web - Concrete composite beam[J]. Composite Structures, 2023. 305: 116527. (SCI一区，通讯)

[26]    Zou Y, Peng H, Zhang Z, Jiang J, Guo J. Effect of additional constraints of push-out test on the mechanical properties of perfobond shear connectors[J]. Structures, 2023. 47: 991-1004. (SCI二区，通讯)

[27]    Zhang Z, Zou Y, Yang J, Zhou J. Capillary rise height of sulfate in Portland-limestone cement concrete under physical attack: Experimental and modelling investigation[J]. Cement and Concrete Composites, 2022, 125: 104299. (SCI一区TOP)

[28]    Zhang Z. Y., Zhou J. T., Yang J., Zou Y., Wang Z. S. Understanding of the deterioration characteristic of concrete exposed to external sulfate attack: Insight into mesoscopic pore structures[J]. Construction and Building Materials. 2020, 260: 119932. (SCI一区TOP)

[29]    Zhang Z. Y., Zhou J. T., Zou Y., Yang J., Bi J. Change on shear strength of concrete fully immersed in sulfate solutions[J]. Construction and Building Materials, 2020, 235: 117463. (SCI一区TOP)

[30]    Zhang Z. Y., Zhou J. T., Yang J., Zou Y., Wang Z. S. Cracking characteristics and pore development in concrete due to physical attack[J]. Materials and Structures. 2020, 53(4): 104. (SCI二区)

[31]    邹杨, 彭洪波, 张中亚, 蒋金龙, 余坤. 负弯矩区PBL剪力连接件剪切性能试验研究[J]. 土木工程学报. 2023, 56(10): 52-66. (权威EI，通讯)

[32]    杨俊, 陈瑞, 张中亚, 邹杨, 周建庭, 王薇丞. 植筋参数对UHPC-石材界面抗剪性能的影响研究[J]. 土木工程学报. 2022, 55(07): 62-78. (权威EI，通讯)

[33]    杨俊，周建庭，张中亚，王宗山，邹杨. UHPC-NC键槽界面抗剪性能研究[J]. 中国公路学报. 2021, 34(08): 132-144. (权威EI，通讯)

[34]    张中亚，周建庭，邹杨，杨俊，靳晓光. 硫酸盐侵蚀对混凝土抗剪性能的影响[J]. 土木工程学报. 2020, 53(07): 64-72. (权威EI)

[35]    Zhang Z. Y., Jin X. G., Luo W. Long-term behaviors of concrete under low-concentration sulfate attack subjected to natural variation of environmental climate conditions[J]. Cement and Concrete Research. 2019, 116: 217-230. (SCI一区TOP)

[36]    Zhang Z, Jin X, Lin S, Bi J. Direct shear behavior of sulfate-exposed shotcrete: Experimental and modelling research[J]. Construction and Building Materials. 2019, 210: 607-619. (SCI一区TOP)

[37]    Zhang Z, Jin X, Luo W. Mechanical responses of shotcrete specimens in direct shear tests[J]. Construction and Building Materials, 2018, 188: 305-313. (SCI一区TOP)

[38]    Zhang Z. Y., Jin X. G., Luo W. Numerical study on the collapse behaviors of shallow tunnel faces under open-face excavation condition using mesh-free method[J]. Journal of Engineering Mechanics. 2019, 145(11): 04019085. (SCI三区)

 ......

获取更多研究成果，请查阅：https://www.researchgate.net/profile/Zhongya-Zhang-zhangzhongya