【基本情况】
姓名 | 张锦华 | 性别 | 男 | 出生 年月 | 1981.09 | ||
职称/职务 | 教授/系主任 | 导师 类别 | 博导 | ||||
研究领域 | 防护工程、机场工程防灾、高性能防护材料 | ||||||
招生学科 | 力学、交通运输、土木工程 | ||||||
联系方式 | zjh982038@nuaa.edu.cn |
【详细介绍】
一、教育背景 | |
2016-2020,陆军工程大学 兵器科学与技术 博士后 2009-2015,解放军理工大学 土木工程 博士 2002-2005,火箭军工程大学 航空宇航推进理论与工程 硕士 1998-2002,火箭军工程大学 工程力学 学士 | |
二、工作经历 | |
2024-至今,南京航空航天大学,民航学院,系主任 2023-至今,南京航空航天大学,民航学院,教授/特聘研究员 2020-2022,东南大学,土木工程学院,教授 2015-2020,陆军工程大学,国防工程学院,副教授 | |
三、教学与科研 | |
教学课程 | 本科生课程:《土力学地基基础》(50学时)、《工程地质II》(16学时)、《智能测量》(36学时)、《智能测量实习》(64学时)、《工程力学》(64学时) 研究生课程:《抗爆结构》(32学时)、《混凝土非线性力学》(32学时)、《材料爆破与冲击》(32学时) |
研究方向 | [1]细观力学与多尺度计算方法研究 [2]抗冲击爆炸新材料、新结构和新方法 [3]人防、国防工程结构与设备的计算与设计 [4]机场工程防灾减灾研究 |
研究项目 | [1] 国家自然基金面上项目,52178190,强动载下混凝土高压状态方程及细观破坏机理,59.0万元,主持 [2] 国家自然基金面上项目,51478464,混凝土多尺度力学模型的建立及高应变速率下损伤破坏机理,89.0万元,主持 [3] 国家自然基金青年项目,51108457,基于细观力学的全级配混凝土在强动载作用下损伤破坏机理,25.0万元,主持 [4] 国防预研基金项目,6142414200505,智能雷场XXX研究,50.0万元,主持 [5] 国家自然基金项目,51778623, 钢筋混凝土结构抗落石冲击作用研究在研,62.0万元,参与 [6] 国家自然基金项目,51678566, 强动载下分层梯度泡沫金属宏细观力学性能与损伤破坏机理,66.0万元,参与 [7] 国家自然基金项目,51738011, 复杂作用下钢管超高性能混凝土力学性能及设计计算理论研究,300.0万元,参与 [8] 横向项目10余项 |
论文专著教材及 专利软著 | 代表性学术论文: 2024年: [1] Junchun Dou, Jinhua Zhang*, Hongfa Yu, Haiyan Ma, Junyu Pan, Zhiqiang Zhang. Investigation on the dynamic mechanical properties and mesoscopic damage mechanism of alkali-activated seawater and sea sand concrete in marine corrosive environments. Construction and Building Materials 2024; 456: 139256. [2] Xusheng Chen, Hongfa Yu, Haiyan Ma, Zhangyu Wu, Haotian Fan, Yuning Gao, Jinhua Zhang, Yan Tu, Junwei Wu. 3D mesoscopic investigation on the biaxial mechanical behavior and failure criteria of coral aggregate concrete based on biaxial strength theory. Construction and Building Materials 2024; 451: 138920. [3] Zhangyu Wu, Jinhua Zhang, Hongfa Yu, Bo Da. Mesoscopic analysis on the coral aggregate reinforced concrete column under axial and eccentric compression. Construction and Building Materials 2024; 451: 138744. [4] Qiquan Mei, Yan Tu, Hongfa Yu, Haiyan Ma, Jinhua Zhang, Jianbo Guo, Lingyu Li, Xiaoqing Chen, Yuning Gao. Penetration test and numerical simulation of scaled earth penetrator for coral aggregate seawater concrete cylindrical target. Journal of Building Engineering 2024; 97: 110870. [5] Juan Guo, Jianbo Guo, Hongfa Yu, Haiyan Ma, Jinhua Zhang, Jun Yan, Fang Wang, Lifang Zhang. Mechanical Properties and Mesoscopic Numerical Simulation of Local Weakening in High-Performance Concrete after 10 Years of Alkali Solution Immersion. Buildings 2024; 14(7): 1965. [6] Fang Wang, Hongfa Yu, Haiyan Ma, Ming Cheng, Jianbo Guo, Jinhua Zhang, Weifeng Liu, Weiquan Gao, Qinghua Tao, Juan Guo. Splitting Tensile Mechanical Performance and Mesoscopic Failure Mechanisms of High-Performance Concrete under 10-Year Corrosion from Salt Lake Brine. Buildings 2024; 14(6): 1673. [7] Zhangyu Wu, Haotian Fan, Jinhua Zhang, Hongfa Yu, Bo Da. Impact characterization of coral aggregate reinforced concrete beam: A 3D numerical study. Journal of Building Engineering 2024; 91: 109597. [8] Weiquan Gao, Hongfa Yu, Haiyan Ma, Jianbo Guo, Jinhua Zhang, Ting Liu, Weifeng Liu, Qinghua Tao. Mesoscopic mechanical study on quasi-static compression of coral aggregate seawater concrete after high temperature exposure. Journal of Building Engineering 2024; 88: 109160. 2023年: [1] Zhangyu Wu, Jinhua Zhang, Hongfa Yu, Qingling Wu, Bo Da. Computer-aided investigation of the tensile behavior of concrete: Relationship between direct and splitting tensile strength. Structures 2023;55: 453–467. [2] Qiquan Mei, Zhangyu Wu, Hongfa Yu, Jinhua Zhang, Haiyan Ma. Multiscale analysis on the mechanical behavior and failure mechanism of high strength concrete. Structural Concrete 2023; 24:6467–6484. [3] Zhangyu Wu, Wei She, Jinhua Zhang, Jinhui Tang, Yubin Cao, Bo Da. 3D mesoscale modelling of steel fiber-reinforced aggregate concrete. International Journal of Mechanical Sciences 2023;257: 108550. [4] Jianbo Guo, Jinhua Zhang, Hongfa Yu, Haiyan Ma. Dynamic compressive behaviour of basic magnesium sulfate cement–coral aggregate concrete (BMSC–CAC) after exposure to elevated temperatures: Experimental and analytical studies. Construction and Building Materials 2023;382: 131336. [5] Jianbo Guo, Jinhua Zhang, Haiyan Ma, Hongfa Yu, Zhangyu Wu, Wenliang Han, Ting Liu. Dynamic behavior of a new type of coral aggregate concrete: Experimental and numerical investigation. Journal of Materials in Civil Engineering 2023; 35(6): 04023124. [6] Hai yan M, Jian bo Guo, Ting Liu, Hong fa Yu, Jin hua Zhang, Zhang yu Wu, Cheng jun Yue, Qi quan Mei. Experimental and numerical studies on the mechanical behaviors of basic magnesium sulfate cement concrete under dynamic split-tension. Journal of Building Engineering 2023;77: 107525. [7] Zhangyu Wu, Hongfa Yu, Jinhua Zhang, Haiyan Ma. Mesoscopic study of the mechanical properties of coral aggregate concrete under complex loads. Composite Structures 2023;308: 116712. [8] Minjiao Zhang, Hongfa Yu, Jinhua Zhang, Boyu Chen, Haiyan Ma, Xu Gong, Jianbo Guo, Weimin Yu, Lingyu Li. Finite element analysis of stress–strain relationship and failure pattern of concrete under uniaxial compression considering freeze–thaw action. Engineering Fracture Mechanics 2023;290: 109520. [9] Lingyu Li, Haiyan Ma, Hongfa Yu, Jinhua Zhang, Ming Cheng, Zhangyu Wu, Jun Yan, Lifang Zhang, Haotian Fan, Fang Wang. Attack resistance mechanism, uniaxial compressive mechanical properties and meso-simulation of high-performance concrete exposed to brine in salt lake for 10 years. Construction and Building Materials 2023;407: 133520. [1] Zhang Jinhua, Wu Zhangyu, Fang Qin, Yu Hongfa, Chen Li. Mesoscopic modelling approach and application for steel fiber reinforced concrete under dynamic loading: A review. Engineering. 2022;16:220-238. (中国工程院院刊) [2] Zhang Jinhua, Liu Xinguo*, Wu Zhangyu, Yu Hhongfa., Fang Qin. Fracture properties of steel fiber reinforced concrete: Size effect study via mesoscale modelling approach. Engineering Fracture Mechanics 2022;260:108193. (入选全球著名科技机构“工程进展(Advances in Engineering)”关键科学文章) [3] Tianning Cui, Jinhua Zhang, Kaikai Li, Jixiang Peng, Hongen Chen, Qinghua Qin, Leong Hien Poh. Ballistic limit of sandwich plates with a metal foam core. Journal of Applied Mechanics 2022;89(2):1-51. [4] Jinhua Zhang, Zhangyu Wu, Qin Fang, Li Chen, Kai Ding. Three-dimensional mesoscale modelling of the compressive behaviors of coral sand. Granular Matter 2022;24(57):1-19. (封面文章) [5] Jinhua Zhang, Xinguo Liu*, Kai Ding, Zhangyu Wu. Dynamic splitting tensile behaviors of ceramic aggregate concrete: An experimental and mesoscopic study. Structural Concrete 2022;1-17. [6] Zhangyu Wu, Jinhua Zhang, Hongfa Yu, Haiyan Ma, Hao Wang, Guijia Zhang, Bing Yan. Experiment and mesoscopic modelling on the dynamic compressive behaviors of a new carbon fiber-reinforced cement-based composite. Cement and Concrete Composites 2022;130: 104519. [7] Zhangyu Wu, Jinhua Zhang, Hongfa Yu. Mesoscopic particulate system assembled from three-dimensional irregular particles. Advanced Powder Technology 2022;33: 103580. [8] Guo JB, Zhang JH, Yu HF, Ma HY and Wu ZY (2022) Experimental and 3D mesoscopic investigation of uniaxial compression performance on basic magnesium sulfate cement-coral aggregate concrete (BMSC-CAC). Composites Part B: Engineering. 2022; 236: 109760. [9] Lu Feng, Xudong Chen, Jinhua Zhang, Changling Chen. Experimental and mesoscopic investigation of self-compacting rubberized concrete under dynamic splitting tension. Journal of Building Engineering 2022;57: 104942. [10] Boyu Chen, Hongfa Yu, Jinhua Zhang, Haiyan Ma, Fangming Tian. Effects of the embedding of cohesive zone model on the mesoscopic fracture behavior of concrete: a case study of uniaxial tension and compression tests. Engineering Failure Analysis 2022;142: 106709. 2021年: [1] Wu ZY, Zhang JH, Yu HF, Fang Q, Chen L. Experimental and mesoscopic investigation on the dynamic properties of coral aggregate concrete in compression. SCIENCE CHINA Technological Sciences (《中国科学: 技术科学》(英文版)). 2021;64(6): 1153-1166. [2] Haiyan M, Zhangyu Wu*, Jinhua Zhang*, Hongfa Yu*, Limin Liang. Uniaxial compressive properties of ecological concrete: Experimental and three-dimensional (3D) mesoscopic investigation. Construction and Building Materials 2021;121034. [3] Wu ZY, Zhang JH, Fang Q, Yu HF, Ma H. 3D mesoscopic modelling on the dynamic properties of coral aggregate concrete under direct tension. Engineering Fracture Mechanics. 2021, 107636. [4] Zhang Jinhua, Wu Zhangyu*, Zhang Yadong, Fang Qin, Yu Hongfa, Jiang Chunlin. Mesoscopic characteristics and macroscopic mechanical properties of coral aggregates. Construction and Building Materials 2021;309(22):125125. [5] Wu ZY, Zhang JH, Yu HF, Ma HY, Fang Q. (2021) 3D Mesoscopic analysis on the compressive behavior of coral aggregate concrete accounting for coarse aggregate volume and maximum aggregate size. Composite Structures. 273: 114271. [6] Wu ZY, Zhang JH, Fang Q, Yu HF, Ma HY. (2021) Specimen size effect on the splitting-tensile behavior of coral aggregate concrete: A 3D mesoscopic study. Engineering Failure analysis. 2021, 105395. [7] Qi Yuan, Xiangzhen Kong, Jinhua Zhang, Jian Hong. Three-dimensional mesoscopic modelling of shock wave propagation and attenuation in gravel granular filter. Powder Technology 2021, 394(5): 838-852. [8] Feng L, Chen X, Zhang J(*), et al. Fatigue behavior and prediction model of self-compacting concrete under constant amplitude load and incremental amplitude load[J]. International Journal of Fatigue, 2021, 145: 106107. [9] Li S, Chen X , Zhang J . Acoustic emission characteristics in deterioration behavior of dam concrete under post-peak cyclic test [J]. Construction and Building Materials, 2021, 292(1):123324. [10] Rongzheng Xu, Li Chen, Jinhua Zhang, Hengbo Xiang, Qin Fang. Penetration of an optimal depleted uranium liner of a shaped charge: A numerical simulation method. International Journal of Protective Structures 2021;12(3):396-413. [11] 吴彰钰, 张锦华,余红发, 麻海燕, 方秦. 基于三维随机细观模型的珊瑚混凝土力学性能研究[J]. 硅酸盐学报, 2021;49(11): 2518-2528. [1] Zhangyu Wu, Jinhua Zhang*, Hongfa Yu*, Haiyan Ma. 3D mesoscopic investigation of the specimen aspect-ratio effect on coral aggregate concrete. Composites Part B 2020;198(1):108025. (WOS:000565586000003) (入选全球著名科技机构“工程进展(Advances in Engineering)”关键科学文章) [2] Zhangyu Wu, Jinhua Zhang*, Hongfa Yu, Qin Fang, Haiyan Ma, Li Chen. Three-Dimensional Mesoscopic Investigation on the Impact of Specimen Geometry and Bearing Strip Size on the Splitting-Tensile Properties of Coral Aggregate Concrete. Engineering 2022;17:110-122. (中国工程院院刊) [3] Zhangyu Wu, Jinhua Zhang*, Hongfa Yu. 3D mesoscopic investigation on the quasi-static compressive properties of CAC. ACI Materials Journal 2021:118(4):121-132. (封面文章) [4] Haiyan Ma, Zhangyu Wu, Hongfa Yu, Jinhua Zhang, Chengjun Yue. Experimental and three-dimensional mesoscopic investigation of coral aggregate concrete under dynamic splitting-tensile loading. Materials and Structures 2020;53(1):1-20. [5] Peng Yan, JinhuaZhang, Xiangzhen Kong, Qin Fang*. Numerical simulation of rockfall trajectory with consideration of arbitrary shapes of falling rocks and terrain. Computers and Geotechnics 2020; 122:103511. [6] Jinhua Zhang, Changling Chen, Xiaojing Li, Xudong Chen, Yaoyao Zhang. Dynamic mechanical property of self-compacting rubber concrete under high strain rates. Journal of Materials in Civil Engineering 2021, 33(2): 04020458. [7] Zhangyu Wu, Jinhua Zhang*, Hongfa Yu*, Haiyan Ma, Li Chen, Wen Dong, Yi Huan, Yadong Zhang. Coupling effect of strain rate and specimen size on the compressive properties of coral aggregate concrete: A 3D mesoscopic study. Composites Part B 2020; 200:108299. [8] Xudong Chen, Dandan Shi, Jinhua Zhang, Xiyuan Cheng. Experimental study on loading rate and notch-to-depth ratio effects on flexural performance of self-compacting concrete with acoustic emission and digital image correlation technologies. The Journal of Strain Analysis for Engineering Design 2021;56(3):148-160. [9] Dandan Shi, Xudong Chen, Jinhua Zhang, Xiyuan Cheng, Weitong Li, Zhenxiang Shi, Chaoguo Wu. Experimental study on post-peak cyclic strain behavior of self-compacting concrete combined with AE and DIC techniques. Journal of Advanced Concrete Technology, 2020, 18, 364-373. [10] Zhangyu Wu, Haiyan Ma, Hongfa Yu, Jinhua Zhang, Bo Da. Influence of rebar types on the service life of a coral aggregate concrete structure. Emerging Materials Research 2020;9(2): 347-359. [11] Ma, HY; Wu, ZY; Yu, HF; Zhang, JH; Da, B. EIS Investigation on the Influence of Natural Releasing of Inhibitor from Coral Aggregate on the Steel Corrosion in Coral Aggregate Concrete. Advances in civil engineering materials 2020;9(1):621-642. [12] Chengjun Yue, Haiyan Ma, Hongfa Yu, Jinhua Zhang*, Li Chen, Qiquan Mei, Yongshan Tan, Ting Liu. Experimental and Three-dimensional Mesoscopic Simulation Study on Coral Aggregate Seawater Concrete with Dynamic Direct Tensile Technology. International Journal of Impact Engineering 2021;150: 103776. [13] Zhangyu Wu, Jinhua Zhang*, Hongfa Yu, Qin Fang. Mesoscopic modelling of concrete under static and dynamic loadings: A review. Construction and Building Materials, 2021;278:122419. [14] Chengjun Yue, Hongfa Yu, Haiyan Ma, Qiquan Mei, Jinhua Zhang, Yadong Zhang. Uniaxial Compression of Sisal Fiber-Reinforced Coral Concrete. ACI Materials Journal 2020;117(5):251-262. 专著: [1] Fang Qin, Jinhua Zhang. Three-dimensional numerical modelling of concrete-like materials subjected to dynamic loadings. In: Advances in Protective Structures, pp. 33-64,CRC Press, 2012. (国际防护结构学会( International Association of ProtectiveStructures)最新研究进展系列第一部专著的一章, ISBN: 978-0-203-07308-7) 专利: [1]一种用于高高原机场道面裂缝修补的高性能复合材料及制备方法 [2]一种玄武岩纤维砂浆三维编织毯及其制备方法 [3]一种适用于热带岛礁机场跑道快速修补材料及制备方法 [4]一种适用于爆破拆除中剪力墙的穿孔装药爆炸方法 [5]一种适用于爆破拆除中的起爆方法 [6]一种适用于爆破拆除中立柱的穿孔装药爆炸方法 [7]一种适用于爆破拆除中的安全防护装置 |
其他教学科研标志性工作 | 指导大学生创新训练计划项目: [1] “冲击爆炸等动荷载作用下混凝土材料三维细观模型研究” [2] “超高性能混凝土静动态力学性能的试验研究” [3] “基于计算机视觉技术的机场跑道反无人机智能检测与跟踪算法研究” [4] “基于AI多模态融合的机场道面智能巡检机器人” [5] “南海岛礁机场跑道及附属设施快速抢修新材料研制” [6] “岛礁机场快速抢修超高性能磷酸镁基复合材料抗冲击性能研究” |
四、荣誉奖项 | |
[1] 2024年,中国爆破行业协会科学技术进步一等奖(排1) [2] 2024年,江苏省科技创新协会科技创新三等奖(排5) [3] 2024年,入选全球前2%科学家榜单 [4] 2024年,中国国际大学生创新大赛(2024)--红旅赛道银奖,指导教师 [5] 2023年,第九届“互联网+”大学生创新创业大赛一等奖,优秀指导教师 [6] 2023年,中国工程院院刊Engineering官微连续2次刊登团队研究成果“科学重构珊瑚混凝土细观模型,助力岛礁工程结构更稳固”、“动态荷载作用下钢纤维混凝土细观模拟方法及应用综述” [7] 2023年,“全级配混凝土三维细观模型的建模方法研究”入选高PCSI论文、高被引论文、高下载论文 [8] 2022年,“混凝土三维细观模型”入选Granular Matter期刊封面 [9] 2022年,“纤维混凝土细观模型”成果入选全球著名机构“工程进展(Advances in Engineering,AIE)”关键科学技术 [10] 2022年,第29届青年教师授课竞赛三等奖 [11] 2022年,第64届青年教师优秀奖 [12] 2021年,新华日报科技版连续2次报道“珊瑚混凝土三维细观模型”研究成果 [13] 2021年,获天津市科技进步一等奖(排11) [14] 2021年,“珊瑚混凝土三维细观模型”入选全球著名机构“工程进展(Advances in Engineering,AIE)”关键科学技术 [15] 2021年,“珊瑚混凝土三维细观模型”入选ACI Materials Journal期刊封面; [16] 2019年,获军队科技进步一等奖(排5) [17] 2017年,获全军优秀博士学位论文奖 [18] 2017年,获大学优秀教学团队成果奖 [19] 2016年,获江苏省优秀博士学位论文奖 [20] 2016年,获大学优秀教学成果奖 | |
五、其他(社会兼职等) | |
[1] 2019年至今 江苏省抗震防灾专业委员会 委员 [2] 2018年至今 全国基础设施防震减灾青年委员会 委员 [3] 2017年至今 中国建筑学会新材料及新型结构专业委员会 委员 [4] 2016年至今 江苏省结构复合材料专业委员会 委员 [5] 2012年至今 International Association of Protective Structures Member [6] 30余本国内外专业期刊审稿人 |