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罗祺硕士生导师副教授qiluo@cqjtu.edu.cn土木工程学院
【个人简介】
罗祺,副教授,工学博士(后),目前于丹麦奥胡斯大学从事博士后工作,新加坡国立大学博士后,美国加州大学欧文分校博士联合培养,重庆交通大学青年拔尖人才。主要从事水泥基材料基于微观力学/结构的多尺度设计及应用研究。主持国家自然科学基金/中国留学基金委面上项目/重庆市科技局、教委项目,参研美国科学基金National Science Foundation (NSF)/交通部Department of Transportation (DOT),新加坡国家科学基金,丹麦国家科学基金项目等项目。
* 课题组中研究生与新加坡国立大学先进水泥基材料项目组开展联合培养,欢迎优秀学子或有进一步深造意愿的同学加入!
Email:qiluo@cqjtu.edu.cn
【教育及工作经历】
2023.08-今 丹麦奥胡斯大学 博士后
2022.06-2023.08 新加坡国立大学 博士后
2022.09-今 重庆交通大学 副教授
2020.06-2022.09 重庆交通大学 讲师
2016.04-2018.04 美国加州大学欧文分校 博士联培
2014.09-2020.06 广西大学 结构工程 博士
2013.06-2016.04 广西交通设计集团有限公司 工程师
【科研项目】
国家自然科学基金青年项目:盐冻环境下UHPC加固界面多尺度损伤演化及退化机理研究 ,(2022.01-2024.12)
重庆市自然科学基金面上项目:腐蚀性离子环境下硅烷偶联剂改性环氧与水化硅酸钙界面退化机理研究(2022.09-2025.09)
重庆市教育委员会科学技术研究项目:亚热带滨海侵蚀环境下CFRP/混凝土加固界面退化机理研究 ,(2021.09-2024.09)
超高性能混凝土孔径分布及其渗透行为相关研究,(2020.06-2022.06)
【研究方向】
水泥基材料多尺度结构和性能研究
基于可持续和性能发展的绿色建筑材料创新
二氧化碳捕捉,利用和封存技术,Carbon Capture and Utilization (CCU)
可持续建材全寿命评估,life cycle assessment (LCA)
【个人代表论文】
【2024】
Published:
(1) Qi Luo, Zhao Lu. Microstructural damage characterization of NC-UHPC composite under salt freeze-thaw cycles
based on ex-situ X-ray computed tomography. Construction and Building Materials. (国际建筑材料Top期刊,影响因子:7.693)
(2) Qi Luo, Pengfei Liu, Min Wu. Re-using excavated rock from underground tunneling activities to
develop eco-friendly ultrahigh performance concrete. Case study in Construction Materials(JCR2. 影响因子6.2)
Under review:
(1) Qi Luo, Yangsheng Xiang. Unraveling the failure mechanisms of C-S-H gels: insight from angular configurations at atomic scale.
(2) Qi Luo, Yin Bai, Xinyu Zhang. Influence of carbonated slag on the properties of a low-carbon cement system containing metakaolin and wollastonite. (Under review)
(3) Qi Luo, Xinyu Zhang, Yin Bai. Exploring synergistic effects and hydration mechanisms in metakaolin-blened cement system with varying metakaolin and wollastonite content. (Under review)
(4) Qi Luo, Yiping Xie, et al. Effects of pore sizes and defects on bonding behavior between calcium silicate hydrate and epoxy under liquid water environment: a molecular dynamic study. (Under review)
【2023】
Published:
(1)Yiping Xie, Qi Luo* . Atomistic insights into the effect of temperature on capillary transport of water molecules in epoxy-modified calcium silicate hydrate nanopore: diffusion, kinetics, and mechanis. Journal of materials science. (封面文章 Cover article)
(2) Qi Luo, Yangsheng Xiang, et al. Molecular simulation of calcium-silicate-hydrate and its applications: A comprehensive review. 2023, Construction and Building Materials. (国际建筑材料Top期刊,影响因子:7.693)
(3) Qi Luo, Xinyu Zhang, Yin Bai, et al. Reduce the cost and embodied carbon of ultrahigh performance concrete using waste clay. 2023, Case study in Construction Materials (JCR2. 影响因子6.2)
(4) Qi Luo, Xinyu Zhang (22级研究生), Yuyang Li, et al. Interfacial Degradation of Calcium Silicate Hydrate and Epoxy under Hygrothermal Environment – an Experimental and Molecular Model Study. The Journal of Physical Chemistry C (国际化学TOP期刊,影响因子4.177)
(5) Qi Luo, Qin Tian , Bo Pang, et al. The influence of moisture and epoxy bonding agents on interfacial behavior between normal concrete substrate and ultrahigh performance concrete as a repair material: Experimental and molecular dynamics study. Construction and Building Materials. (国际建筑材料Top期刊,影响因子:7.693)
(6) 刘鹏飞,罗祺*,冯庆革等,隧道洞渣加工机制砂制备超高性能混凝土及其力学性能研究. 混凝土,2023, 3 (7).
【2022】
(1) Qi Luo, Yuyang Li, Zhe Zhang, Xiaojuan Peng, Guoqing Geng, Influence of substrate moisture on the interfacial bonding between calcium silicate hydrate and epoxy, Construction and Building Materials, 320, 2022,126252 (国际建筑材料Top期刊,影响因子:6.141)
(2) Qi. Luo, D. Liu, P. Qiao, Z. Zhou, Y. Zhao, L. Sun, Micro-CT-based micromechanics and numerical homogenization for effective elastic property of ultra-high performance concrete, International Journal of Damage Mechanics. 29 (2020) 45-66(JCR一区, 国际损伤力学期刊,影响因子:5.029)
(3) Qi. Luo, D.X. Liu, P. Qiao, Q.G. Feng, L.Z. Sun, Microstructural damage characterization of concrete under freeze-thaw action, International Journal of Damage Mechanics. 27 (2018) 1551-1568(JCR一区,国际损伤力学期刊,影响因子:5.029)
研究方向
尚未录入;