基本信息
李黎,男,1986年10月生,河南南阳人,工学博士,副教授,硕士研究生导师。
教育经历
1.本科毕业于郑州大学土木工程专业,获工学学士学位;
2.硕士毕业于郑州大学结构工程专业,获工学硕士学位;
3.博士毕业于大连理工大学材料学(建筑材料)专业,获工学博士学位,导师:曹明莉教授。
4.博士后进站于浙江大学,合作导师:徐世烺院士。
研究方向
纤维混凝土、先进水工材料、固体废弃物资源化。
学术/社会兼职
1. 国际期刊《International Journal of Engineering Sciences and Technologies》《Sustainable Structures》《Journal of intelligent Construction》,中文核心期刊《应用力学学报》、《河北农业大学学报》编委及青年编委。
2.中国大坝学会混凝土与岩石断裂力学专业委员会委员、建筑工程与材料测试技术论坛专家委员会委员、美国土木工程师学会会员、(英国)土木工程师学会会员、2021年江苏省科技副总等。
3.多个SCI/EI期刊审稿人,包括Construction and Building Materials、Materials & Design、Composites Structure、Journal of Cleaner Production、ASCE's Journal of Materials in Civil Engineering、复合材料学报、铁道科学与工程学报、材料导报等;教育部学位中心硕士、博士学位论文通讯评审专家。
国际交流
与澳大利亚联邦科学与工业研究组织CSIRO、皇家墨尔本理工大学RMIT University、香港理工大学、澳门大学、巴基斯坦Capital University of Science and Technology等高校和科研机构专家建立了合作关系。
荣誉奖励
1. 陕西省水利发电学会.青年优秀学术论文二等奖(2020年度)。
2. 大连理工大学.大连理工大学优秀博士学位论文(2021年度)。
3.教育部.博士研究生国家奖学金3次(2017、2018、2019年度)。
4.大连理工大学.优秀研究生3次(2017、2018、2019年度)。
学生培养
1.硕士研究生国家奖学金:委玉杰、陶佳诚。
2.大学生创新创业计划结题优秀:孟子祥。
3.第六届全国大学生混凝土材料设计大赛三等奖:张建余、吴珈莹、吴志彬。
科研项目
1.微纳粒子对纤维/地聚物混凝土界面力学性能的多尺度影响机理,国家自然科学基金项目,主持,在研.
2.混杂纤维UHPC高温后的多尺度“损伤/自愈合”行为与机理研究,陕西省自然科学基础研究计划项目,主持,结题。
3. 北方引黄大型灌区现浇钢丝网片混凝土与保温一体化渠道衬砌关键技术研究与应用,水利部重大科技项目,参与,在研。
4. 高韧性地聚物混凝土的制备及增韧机理研究,西部绿色建筑国家重点实验室开放基金课题,主持,结题。
5.基于多层次结构特征的新型混杂纤维水泥基复合材料的性能及机理研究,国家自然科学基金面上项目,参与,已结题。
6.新型混杂纤维增强水泥基复合材料的流变特性及机理研究,国家自然科学基金面上项目,参与,已结题。
主讲课程
1.本科生:建筑材料、土木工程材料。
2.硕士研究生:高等混凝土结构学、现代混凝土技术。
3.博士研究生:水利工程前沿进展。
主要代表作(仅列出部分一作或通讯作者SCI/EI论文34篇)
1. Li Li, Mingli Cao, Hong Yin. Comparative roles between aragonite and calcite calcium carbonate whiskers in the hydration and strength of cement paste. Cement and Concrete Composites , 2019, 104, 103350.(SCI/中科院一区).
2.Li Li, Sun H, Zhang Y, Zongli Li. Dynamic evolution of crack fractal of polypropylene fiber reinforced geopolymer during flexural process[J]. Engineering Fracture Mechanics . 2024, 300(16): 109992.(SCI/中科院二区)
3. Li Li*, Zongli Li, Mingli Cao. Nanoindentation and Porosity Fractal Dimension of Calcium Carbonate Whisker Reinforced Cement Paste After Elevated Temperatures (up to 900 ℃). Fractals, 2021, 29(2), 2140001. (西农G2,SCI/中科院一区TOP)
4. Li Li*, Ma Zhili, Ming Xing*. Multiscale ab-initio modeling and experiment of nano-CaCO3 and fiber synergy on toughening low-carbon geopolymer composites[J]. Materials & Design . 2023, 233: 112280. (SCI/中科院一区)
5. Li Li,Wei Yu-jie, Li Zongli*,Farooqi Muhammad Usman. Rheological and viscoelastic characterizations of fly ash/slag/silica fume-based geopolymer. Journal of Cleaner Production , 2021, 354, 131629. (西农G3,SCI/中科院一区TOP,JCR Q1区)
6. Li Li, Tao Jia-cheng, Zhang Yang, et al. Crack fractal analysis of fractured polyethylene fiber reinforced alkali activat-ed mortar under flexural load. Construction and Building Materials . 2022, 345: 128428. (西农G3,SCI/中科院一区,JCR Q1区)
7. Li Li, Danying Gao, Zongli Li, Mingli Cao. Effect of high temperature on morphologies of fibers and mechanical properties of multi-scale fiber reinforced cement-based composites. Construction and Building Materials , 2020, 261, 120487. (西农G3,SCI/中科院一区,JCR Q1区)
8. Li Li, Mingli Cao. Microstructure of calcium carbonate whisker reinforced cement paste after elevated temperature exposure. Construction and Building Materials , 2019, 227, 116609. (西农G3,SCI/中科院一区,JCR Q1区)
9. Li Li, Mingli Cao.Influence of calcium carbonate whisker and polyvinyl alcohol- steel hybrid fiber onultrasonic velocity and resonant frequency of cementitious composites. Construction and Building Materials ,2018, 188, 737-746 . (西农G3,SCI/中科院一区,JCR Q1区)
10. Li Li*, Sun Hai-xin, Zhang Y, et al. Surface Cracking and Fractal Characteristics of Bending Fractured Polypropylene Fiber-Reinforced Geopolymer Mortar [J]. Fractal and Fractional . 2021, 5(4): 142. (SCI/中科院一区,JCR Q1区)
11. Mingli Cao, Li Li*. New models for predicting workability and toughness of hybrid fiber reinforced cement-based composites.Construction and Building Materials ,2018, 176, 618-628. (西农G3,SCI/中科院一区,JCR Q1区)
12. Zhang Ning, Yan Chenyu, Li Li*, et al. Assessment of fiber factor for the fracture toughness of polyethylene fiber reinforced geopolymer[J]. Construction and Building Materials . 2022, 319: 126130. (西农G3,SCI/中科院一区,JCR Q1区)
13. Feng Hu, Zhao X, Li Li*, et al. Water stability of bonding properties between nano-Fe2O3-modified magnesium-phosphate-cement mortar and steel fibre[J]. Construction and Building Materials . 2021, 291: 123316. (西农G3,SCI/中科院一区,JCR Q1区)
14. Hu Chengfeng, Li Li*, Li Zongli. Effect of fiber factor on the workability and mechanical properties of polyethylene fiber-reinforced high toughness geopolymers[J]. Ceramics International . 2022, 48(8): 10458-10471. (西农G4,SCI/中科院二区TOP,JCR Q1区)
15. Li Li, Chaopeng Xie, Mingli Cao, XiongxiongZhou*. Synergistic Effect between CaCO3 Whisker and Steel-PVA Fibre Cocktail in Cement-based Material at Elevated Temperature. ASCE's Journal of Materials in Civil Engineering ,2022, 34(2):04021415.(SCI/中科院三区,JCR Q2区).
16.Li H, Jin P, Yan C, ZhangN,Li Li*. Impact of polyethylene fiber and microsilica on fracture properties of high strength high toughness geopolymer concrete (HSHTGC)[J]. Developments in the Built Environment . 2024, 18: 100399.(西农G3,SCI/中科院一区,JCR Q1区)
17.Li Li, Ma Z, Gao C, et al. Hybrid Effect of Nano-CaCO3 and Polypropylene Fiber on Fresh and Hardened Properties of Alkali-Activated Material[J]. Journal of Materials in Civil Engineering . 2024, 6(36): 4024143. (SCI/中科院三区,JCR Q2区).18.
18.Li H, Li Li*, Zhang N, et al. Hybrid effect of polyethylene fibre and nano-calcium carbonate on the flowability and strength of a geopolymer composite[J]. Magazine of Concrete Research . 2024, 76(4): 188-200. (SCI/中科院三区)
19.Wang K, Li J, Li Li*, ZhangYang*. Machine learning to estimate the bond strength of the corroded steel bar‐concrete[J]. Structural Concrete . 2024, 25: 696-715. (SCI/中科院四区,JCR Q2区)
20. Li Li*, Guan J, Xie Y, et al. Characterization of bending performance of reinforced cementitious composites beams with hybrid fibers after exposure to high temperatures[J]. Structural Concrete . 2021: 1-17. (SCI/中科院四区,JCR Q2区)
21. Li Li, Mingli Cao*, Chaopeng Xie, Hong Yin. Effects of CaCO3 whisker, hybrid fiber content and size on uniaxial compressive behavior of cementitious composites. Structural Concrete, 2019, 20(1), 506-518.(SCI/中科院四区,JCR Q2区)
22.Li Li*, Cao M, Li Z, et al. Uniaxial tensile behavior and mechanism characterization of multi-scale fiber-reinforced cementitious materials[J]. Materiales de Construcción . 2022, 72(345): e271. (SCI/中科院四区,JCR Q2区)
23. Mingli Cao, Li Li*, Hong Yin, Xing Ming. Microstructure and strength of calcium carbonate (CaCO3) whisker reinforced cement paste after exposed to high temperatures. Fire Technology , 2019, 55(6), 1983–2003.(SCI/中科院四区, JCR Q3区)
24. Mingli Cao, Li Li*, Cong Zhang, Jiaqi Feng. Behavior and damage assessment of a new hybrid fibre reinforced mortar under impact load. Magazine of Concrete Research ,2018, 70(17), 905–918.(SCI/中科院四区, JCR Q2区)
25. Mingli Cao, Li Li*, Ling Xu. Relations between rheological and mechanical properties of fiber reinforced mortar. Computers and Concrete ,2017, 20(4), 449-459.( SCI/中科院四区,JCR Q2区)
26. Mingli Cao, Li Li*,Mehran Khan. Effect of hybrid fibers, calcium carbonate whisker and coarse sand on mechanical properties of cement-based composites. Materiales de Construcción . 2018, 68(330), e156. (SCI/中科院四区,JCR Q2区)
27.Meng Zixiang, Li Li*, Farooqi M U, et al. Fiber factor for fresh and hardened properties of polyethylene fiber-reinforced geopolymer mortar[J]. Journal of Building Engineering . 2022, 53: 104556. (SCI/中科院二区,JCR Q1区)
28. Li Li, Yan Chenyu, Zhang Ning*, Farooqi Muhammad Usman, Xu Shilang, Deifalla Ahmed Farouk. Flexural Fracture Parameters of Polypropylene Fiber Reinforced Geopolymer[J]. Journal of Materials Research and Technology , https://doi.org/10.1016/j.jmrt.2023.03.035.(SCI/中科院二区,JCR Q1区)
29. Li Li, Qin Yapeng, Cao Mingli, Guan Junfeng, Xie Chaopeng. Bending performance and calculation of reinforced beam with hybrid fiber and CaCO3 whisker[J]. Computers and Concrete ,2023, 31(3), 197-206.( SCI/中科院四区,JCR Q2区)
30.李黎,委玉杰,李宗利*,等. 基于纤维增强指数的碱激发砂浆物理力学性能[J]. 硅酸盐学报 . 2022, 50(8): 1-9.
31. 李黎,陶佳诚,曹明莉,李宗利*. 混杂纤维增强砂浆高温后单轴受压本构关系[J]. 复合材料学报 . 2022,11(9): 5375-5385(EI)
32. 李黎*,李宗利,高丹盈,曹明莉. 高温对钢-聚乙烯醇纤维-CaCO3晶须多尺度纤维/水泥复合材料弯曲性能和微观结构的影响. 复合材料学报 .2021, 38(7):2326-2335. (EI)
33. 李黎, 曹明莉*. 混杂纤维增强水泥基复合材料弯曲韧性与纤维增强指数的定量关系. 复合材料学报 . 2018,35(5): 30-34.(EI)
34. 李黎, 曹明莉*, 冯嘉琪. 混杂纤维增强水泥基复合材料的纤维混杂效应研究进展. 应用基础与工程科学学报. 2018, 26(4): 843-853.(EI)
规范标准
1.《数字图像法检测混凝土裂缝技术标准(T/HNCAA 034-2022)》,河南省认证认可协会团体标准,主要起草人(排名第二)。
发明专利
1.李黎,孟子祥,李宗利. 一种早强型超高延性地聚物混凝土材料及其制备方法:中国, CN202111052730.2 [P]. 发明类别:发明专利,公开. 日期:2021.12.17.
2.曹明莉,李黎. 一种低成本的耐高温纤维增强水泥基复合材料:中国, CN201810338164.3 [P]. 发明类别:发明专利,公开. 日期:2018.07.20.
3.李黎,李新展,李宗利. 一种碱激发复合再生粉体再生骨料透水混凝土及其制备方法:中国, CN202210212769.4[P].发明类别:发明专利,公开.日期:2022.05.06..
学术会议
1. 2023.2.22-25. 中国郑州,第十三届管道工程与非开挖技术国际研讨会. 口头报告:碱激发灌浆材料的流变和粘弹性行为研究。
2. 2020.10.16-18,中国西安,第二届先进胶凝材料研究与应用学术会议. 主办:中国建筑学会建筑材料分会. 口头报告:多尺度纤维对水泥砂浆高温物理变化及爆裂性能的影响。
3. 2018.6.28-30,意大利代森扎诺,3rd FRC International Workshop Fibre Reinforced Concrete: from Design to Structural Applications.主办:ACI、fib and RILEM joint Workshop. 口头报告:A new multi-scale hybrid fibre reinforced cement-based composites。
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邮箱:drlili@vip.163.com drlili@nwafu.edu.cn
招生专业,学硕:水利工程,专硕:土木水利。
欢迎土木水利类、数学力学类、材料化学类相关专业同学报考,欢迎相关领域专家学者合作交流。