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俞可权,博士,准聘教授,硕士/博士生导师,国家海外优青获得者。主要研究方向包括高强高延性混凝土(UHP-ECC)与超高性能混凝土(UHPC)的材料研发、结构应用与自动化无筋建造技术。主持国家自然科学基金课题(含人才类项目)、省部级项目等共 8项,参与国家级项目5项;发表百余篇科技论文,其中包括 SCI 检索论文 70 余篇及 EI 检索论文 10 余篇;出版英文编著1部;主、参编多项标准;入选中国区高被引学者(土木工程学科全国134人入选),连续入选由斯坦福大学颁布全球前2%高引学者。
(联合)指导毕业3名博士,在读10名博士生,5名硕士研究生。
多人次获国家奖学金、指导的学生前往斯坦福大学与清华大学等国内外学府深造。
1. 国家级人才类项目
2. 国家自然科学基金青年项目
3. 重庆市自然科学基金项目
4. 同济大学校内交叉课题、土木工程高峰交叉学科合作基金
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg1. 国家级人才类项目
2. 国家自然科学基金青年项目
3. 重庆市自然科学基金项目
4. 同济大学校内交叉课题、土木工程高峰交叉学科合作基金
(A)书籍编著
(B)期刊论文
1. Deng B.Y., Tan D., Li L.Z.*, Zhang Z., Cai Z.W., Yu K.* (2023). Flexural behavior of precast ultra-lightweight ECC-concrete composite slab with lattice girders. Engineering Structures, 279, 115553.
2. Deng, B. Y., Li, L. Z., Tan, D., Uddin, M. N., Cai, Z. W., & Yu K.* (2023). Sustainable and cost-effective ultra-lightweight engineered cementitious composite: Design and material characterization. Cement and Concrete Composites, 104895.
3. Liao, Q., Su, Y., Yu, J., & Yu, K*. (2022).Torsional behavior of BFRP bars reinforced engineered cementitious composites beams without stirrup. Engineering Structures, 268, 114748.
4. Yu, K., Mcgee, W., Ng, T., Zhu, H., &Li, V. C.*. (2021). 3D-printable engineered cementitious composites (3DP-ECC): Fresh and hardened properties. Cement and Concrete Research, 106388.
5. Yu, K., Zhu, W. , Ding, Y., Lu, Z., Yu, J., & Xiao, J. (2019). Micro-structural and mechanical properties of ultra-high performance engineered cementitious composites (UHP-ECC) incorporation of recycled fine powder (RFP). Cement and Concrete Research, 124, 105813.
6. Ye, J., Cui, C., Yu, J.*, Yu, K.*, & Xiao, J. (2021). Fresh and anisotropic-mechanical properties of 3D printable ultra-high ductile concrete with crumb rubber. Composites Part B: Engineering, 108639.
7. Yu, K., Hou, M., Zhu, H., & Li, V. (2021). Self-healing of PE-fiber reinforced lightweight high-strength engineered cementitious composite. Cement and Concrete Composites, 123, 104209.
8. Yu, K., Ding, Y., & Zhang, Y. X. (2020). Size effects on tensile properties and compressive strength of engineered cementitious composites. Cement and Concrete Composites, 103691.
9. Yu, K., Ding, Y., (2020). Energy dissipation characteristics of all-grade polyethylene fiber-reinforced engineered cementitious composites. Cement and Concrete Composites, 149, 156-169.
10. Li, L., Cai, Z., Yu, K.*, Zhang, Y., & Ding, Y. (2019). Performance-based design of all-grade strain hardening cementitious composites with compressive strengths from 40 MPa to 120 MPa. Cement and Concrete Composites, 97, 202-217.
11. Wang, Y., Wei, L., Yu, J., & Yu, K.* (2019). Mechanical properties of high ductile magnesium oxychloride cement-based composites after water soaking. Cement and Concrete Composites, 97, 248-258.
12. Yu, K., Dai, J., Lu, Z., & Poon, C. (2018). Rate-dependent tensile properties of ultra-high performance engineered cementitious composites (UHP-ECC). Cement and Concrete Composites, 93, 218-234.
13. Cai, Z., Yu, J., Tian, L., Liu, F., & Yu, K. *(2021). Fire resistance of post-earthquake steel beams insulated with a novel fire-resistive coating- FR-ECC. Engineering Structures, 246(7), 112887.
14. Li, L. , Bai, Y., Yu, K.*, Yu, J., & Lu, Z. (2019). Reinforced high-strength engineered cementitious composite (ECC) columns under eccentric compression: Experiment and theoretical model. Engineering Structures, 198, 109541.
15. Yu, K., Li, L., Yu, J., Xiao, J., Ye, J., & Wang, Y. (2018). Feasibility of using ultra-high ductility cementitious composites for concrete structures without steel rebar. Engineering Structures, 170, 11-20.
16. Yu, K., Yu, J. T., Lu, Z. D., & Chen, Q. (2015). Determination of the softening curve and fracture toughness of high-strength concrete exposed to high temperature. Engineering Fracture Mechanics, 149, 156-169.
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