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- 教育背景与工作经历
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2009.9~2013.6 南华大学, 土木工程, 学士;
2013.9~2016.7 北京工业大学, 结构工程, 硕士;
2016.9~2021.9 同济大学, 结构工程, 博士;
2019.9~2021.2 密歇根大学安娜堡分校, 结构工程, 博士;
2021.11~至今 土木工程学院, 讲师. - 讲授课程
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本科生:混凝土结构设计原理;混凝土房屋结构与砌体结构;预应力混凝土结构设计原理;智能建造认识实习;毕业实习
研究生:高等混凝土结构学 - 研究领域
- 低碳新型高延性混凝土的研发、无筋建造与3D打印
- 学术成果
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[1]Wang Yichao, Song Jia, Hu Zeen, Zhang Yao. Mechanical and water resistance properties of strain hardening fiber reinforced gypsum-based composites[J]. Construction and Building Materials, 2024, 425: 136116.(SCI)
[2]Guan Zhongzheng, Zhang Haochang, Wang Yichao, et al. Experimental–Computational Investigation of the Elastic Modulus of Mortar under Sulfate Attacks[J]. Materials, 2023, 16(18), 6176. (SCI)
[3]Zhu He, Wang Yichao, Mehthel M, et al. Development of durable engineered cementitious composites using loca ingredients[J]. Cement and Concrete Research, 2023, 173:107298.
[4]Wang Yichao, Liu feichi, Yu Jiangtao, et al. Effect of Polyethylene Fiber Content on Physical and Mechanical Properties of Ultra-High Ductile Cementitious Composites [J]. Construction and Building Materials, 2020, 251: 118917.(SCI)
[5]Wang Yichao, Jian Xiangru, Yu Jiangtao, et al. Development of gypsum-based composites with tensile strain-hardening characteristics [J]. Journal of the American Ceramic Society, 2020, 103(12): 7115-7126.(SCI)
[6]Wang Yichao, Wei Linzhuo, Yu Jiangtao, et al. Mechanical properties of high ductile magnesium oxychloride cement-based composites after water soaking [J]. Cement and Concrete Composites, 2019, 97: 248-258.(SCI)
[7]Wang Yichao, Zhang Zhigang, Yu Jiangtao, et al. Using Green Supplementary Materials to Achieve More Ductile ECC [J]. Materials, 2019, 12(6): 858.(SCI)
[8]Wei Linzhuo, Wang Yichao, Yu Jiangtao, et al. Feasibility study of strain hardening magnesium oxychloride cement-based composites[J]. Construction and Building Materials, 2018, 165:750-760.(SCI)
[9]Yu Jiangtao, Wang Yichao, Zhang Qian, et al. Using DIC technique to characterize the Mode II interface fracture of layered system composed of multiple materials [J]. Composites Structures, 2019, 230, 111413.(SCI)
[10]Yu Jiangtao, Wang Yichao, Hu Kexu, et al. The performance of near-surface mounted CFRP strengthened RC beam in fire [J]. Fire Safety Journal, 2017, 90:86-94.(SCI)
[11]Yu Kequan, Wang Yichao, Yu Jiangtao, Xu Shilang. A strain-hardening cementitious composites with the tensile capacity up to 8% [J]. Construction and Building Materials, 2017, 137(1): 410-419.(SCI)
[12]He Zhu, Tianyu Wang, Wang Yichao. Feasibility of structural retrofit concrete pipelines using limestone calcined clay cement Engineered Cementitious Composites (LC3 ECC)[J]. Engineering Structures, 2023, 289:116305.(SCI)
[13]Zhu He, Zhang Duo, Wang Yichao, et al. Development of self-stressing Engineered Cementitious Composites (ECC)[J]. Cement and Concrete Composites, 2021, 118:103936.
[14]Zhu He, Wang Tianyu, Wang Yichao, Victor Li. Trenchless rehabilitation for concrete pipelines of water infrastructure: A review from the structural perspective [J]. Cement and Concrete Composites, 2021, 123: 104193.(SCI)
[15]Yang Yumeng, Feng He, Zhang Yao, Wang Yichao. Mechanical Properties and Brittleness Characterization Method of Low-Rank Coal and Its Char Particles under a Uniaxial Compression Test[J]. Energy and Fuels, 2023, 37, 7696-7706.
[16]Dong Fangyuan, Yu kequan, Yu Jiangtao, Wang Yichao, Liu Keke. Effects of environmental temperature on the mechanical properties of polyethylene fiber‐engineered cementitious composites[J]. Structural Concrete, 2022, 100403.(SCI)
[17]Ye Junhong, Yu Jiangtao, Cui Can, Wang Yichao. Flexural size effect of ultra-high ductile concrete under different damage and ductility levels[J]. Cement and Concrete Composites, 2021, 115, 103852.
[18]Ye Junhong, Yu Jiangtao, Ye Jie, Yu K2quan, Wang Yichao.Tensile size effect of engineered cementitious composites (ECC): Experimental and theoretical investigations[J]. Construction and Building Materials, 2023, 402: 133053.(SCI)
[19]Yu Kequan, Li Lingzhi, Yu Jiangtao, Wang Yichao. Direct tensile properties of engineered cementitious composites: A review [J]. Construction & Building Materials, 2018, 165:346-362.(SCI)
[20]Yu Jiangtao, Liu Keke, Li Lingzhi, Wang Yichao. A simplified method to predict the fire resistance of RC beams strengthened with near-surface mounted CFRP [J]. Composite Structures, 2018, 193.(SCI)
[21]Yu Kequan, Li Lingzhi, Yu Jiangtao, Xiao Jianzhaung, Ye Junhong, Wang Yichao. Feasibility of using ultra-high ductility cementitious composites for concrete structures without steel rebar [J]. Engineering Structures, 2018, 170:11-20. (SCI高被引论文)
[22]王义超, 侯梦君, 余江滔, 等. 聚乙烯纤维制备超高延性水泥基复合材料的试验研究 [J].材料导报, 2018, 31(20), 3535-3540.(EI)
[23]王义超, 余江滔, 魏琳桌, 等. 超高延性氯氧镁水泥基复合材料耐水性能研究[J].材料导报, 2019, 33(8), 2665-2670.(EI)
[24]王义超, 余江滔, 徐世烺, 等. 超高延性氯氧镁水泥基复合材料力学性能试验研究[J].武汉理工大学学报, 2017, 39(10): 1-7.(EI)
[25]邓宗才, 王义超, 肖锐,等. 高强钢筋UHPC梁抗弯性能试验研究与理论分析[J]. 应用基础与工程科学学报, 2015(1):68-78.(EI)
[26]邓宗才, 王义超. FRP约束超高性混凝土圆柱轴压本构模型[J]. 西南交通大学学报, 2015, 50(4):641-647.(EI)
[27]邓宗才, 王义超. 预应力超高性能混凝土梁抗震性能试验研究[J]. 桥梁建设, 2016, 46(6):29-34.(EI)
[28]廖桥, 苏元瑞, 余江滔, 王义超. 海水海砂ECC梁的抗剪性能试验及有限元模拟[J].复合材料学报, 2022, 39.(EI)
[29]叶俊宏,俞可权,王义超,董方园,余江滔,等. 超高延性混凝土仿生梁弯曲性能及其理论模型[J]. 同济大学学报, 2022.(EI)
[30]余江滔, 田力康, 王义超, 刘柯柯. 具有超高延性的再生微粉水泥基复合材料的力学性能[J].材料导报, 2019, 33(4), 1328-1334.(EI)
[31]张媛, 曹泽召,王义超. 低纤维掺量下超高延性混凝土的拉伸性能试验研究[J].混凝土与水泥制品, 2024.(中文核心)
[32]俞可权, 余江滔, 李凌志, 董方园, 王义超. 可用于无筋建造的超高延性水泥基复合材料力学性能研究[J]. 建筑结构, 2019, 49(2):8.(中文核心)
[33]Wang Yichao, Yu Jiangtao. Influence of fiber content variation on the mechanical properties of ultra-high ductile cementitious composites [C]. Fib Symposium 2019, 2019.
[34]Wang Yichao, Yu Jiangtao, Xu Qingfeng. A general reinforcement developed to change hydraulic and alinite inorganic materials into ultra-high ductile composites [C]. The 2nd International Conference of UHPC Materials and Structures, 2018.
[35]Wu wei, Wang Yichao, Yu Jiangtao. Study on the size effect of UHDCC mechanical properties [C]. The 2nd International Conference of UHPC Materials and Structures, 2018.
[36]Zhan Kaili, Yu Jiangtao, Wang Yichao, et al. Development of Cementitious Composites with Tensile Strain Capacity up to 10% [C]. International Conference on Strain-Hardening Cement-Based Composites, 2017, 147-153.
[37]王义超, 余江滔, 叶俊宏, 俞可权. 超高延性混凝土用于无筋建造的可行性初探[C].第十七届全国纤维混凝土学术会议, 西安, 2018.
[38]余江滔, 俞可权, 王义超. 适用于无筋建造的超高延性混凝土及其力学性能[C].第十二届高性能混凝土国际学术研讨会, 成都, 2017. - 科研项目
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(1) 河北省教育厅青年拔尖人才项目(BJK2024020):超高延性再生骨料混凝土的设计与高温损伤机制研究,2024-01 至 2026-12,主持。
(2) 土木工程学院自主科研课题(TMXN2203):超高延性混凝土的动态拉伸性能与应变率效应机理研究,2023-01 至 2024-12,主持。 - 获奖荣誉
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[1]石家庄铁道大学优秀共产党员.
[2]王义超,宋佳,张耀,等.一种应变硬化型再生粗骨料混凝土及其制备方法:ZL202310645266[P][2023-09-01].(发明专利授权)
[3]王义超, 宋佳, 曹强强, 张耀. 一种3D打印沙漠砂超高延性混凝土及其制备方法:ZL202310114582.5[P]. 2023-05-09.(发明专利授权)
[4]王义超, 徐日昌, 张媛,曹泽召,李常泵,管忠正,张耀,杨海涛,张学明. 高掺量铁尾矿砂超高延性混凝土及其制备方法, CN202311304901.5.(发明专利授权)
[5]王义超, 吴平飞, 胡泽恩, 曹泽召, 秦亚运, 张耀, 郭进, 杨雨濛. 超高延性地聚物再生混凝土及其制备方法, ZL 2023 1 1653595.6, [P][2024-01-30].(发明专利授权)
[6]王义超, 余江滔. 一种双向单纤维拔出水泥基体试件模具及其制作和应用:ZL201910892862.2[P]. 2022-09-16.(发明专利授权)
[7]张耀, 熊阮翔, 王义超, 杨雨濛, 马米娜, 朱沛华, 赵维刚. 纤维增强再生砂耐高温地聚物及其制备方法.(发明专利授权)
[8]杨海涛, 吴兆丰, 李雪健, 王伟, 孙国文,牛庆合,王义超, 等. 高强抗裂型钢渣基地聚物及其制备方法, 2023 1 1251660.2, [P].2024-1-5.(发明专利授权)
[9]张耀,张绍绮,雷茜茹,王义超,等.高延性多尺度纤维增强水泥基复合材料及其制备方法:中国, 202311140364.5, [P].2023-11-27.(发明专利授权)
[10]张耀,张绍绮,王义超.绿色高强耐高温多尺度纤维增强橡胶混凝土及其制备方法:202310508212[P].2023-09-08.(发明专利授权)
[11]余江滔, 王义超, 肖梅强. 一种具有超高延性的纤维增强石膏复合材料及其制备方法:中国, 201810054820.7, [P].2021-2-2.(发明专利授权)
[12]刘柯柯, 余江滔, 王义超.一种海水搅拌的纤维增强水泥基超高延性混凝土及其制备:中国, 201810072144.6, [P].2020-7-7.(发明专利授权)
[13]张耀, 雷茜茹, 瞿潇雨, 王义超, 杨雨濛, 赵维刚. 钛酸钾晶须增强超高性能再生混凝土及其制备方法, ZL 2024 1 0249688.0[P]. 2024-04-30.
[14]王义超, 张媛, 宋佳. 非接触式纤维基体界面粘结滑移关系的测试装置: 中国, 2023 2 1541318.1, [P].2023-11-10.(实用新型授权)
[15]王义超, 吴平飞, 郭鑫涛, 等. 基于三维模拟仿真的ECC截面纤维数量计算软件. 2024SR0131354.(软件著作权)
[16]王军文;齐龙芝;李睿寅;郝玉军;刘丽杰;王义超;李勇;郭进.一种基于环簧自复位的分级耗能型防屈曲支撑装置及方法:中国, 202211459297.9, [P].2024-6-4.(发明专利授权) - 学术兼职
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[1] Cement and Concrete Composites、Journal of Cleaner Production、Composites Part B: Engineering、Construction and Building Materials等期刊审稿人
[2] 河北省智能建造学会,副秘书长
[3] 河北省铁道学会,会员