学位职称:博士/副教授
办公地点:科技楼505
Email:hll_1010@163.com、lilihu@ustb.edu.cn
教育和工作经历:
2024.11至今 北京科技大学土木与资源工程学院,副教授(硕导)
2020.06-2024.10 上海交通大学土木工程系 助理教授、副教授(硕导、博导)
2017.09-2020.06 清华大学 土木工程专业 博士
2018.10-2019.07 瑞士苏黎世联邦理工学院(ETH Zürich) 国家公派联合培养
2014.08-2017.07 清华大学 土木工程专业 硕士
2010.09-2014.06 天津大学 土木工程专业、英语专业 学士
科研方向:
(1) 纤维增强复合材料-金属新型组合结构 Innovative FRP-metal composite structures
(2) 高性能海洋土木工程结构 High performance structures for offshore engineering
(3) 智能材料及智能建造 Smart materials and constructions
课题组尊重学生想法,提供合作项目,支持国际交流。欢迎热爱思考、热爱生活的研究生与本科生同学加入课题组,让我们一起探索科研的乐趣!
学术兼职:
(2) SCI期刊Polymers专题客座编辑Special Issue Editor、专题咨询小组成员Topical Advisory Panel
(3) SCI期刊Buildings专题客座编辑Special Issue Editor
(4) SCI期刊Frontiers in Materials专题客座编辑Research Topic Editor
(5) 国际期刊Smart Construction《智能建造与智慧运维》 青年编委
(6) 国际期刊Sustainable Structures青年编委
(7) 中文核心期刊《复合材料科学与工程》青年编委
(8) 国际会议 iCFSERP-2024 学术委员会 委员 Scientific Committee Member
(9) 国际会议 ACESS 2023 以及 ACESS 2024 项目委员会联合主席Program Committee Co-Chair
(10) 国际会议 SMAR 2024, Mini-Symposium、SMAR 2022 Special Session、国ISSCI 2018、ISERCI 2018 组织人
(11) 中国土木工程学会 先进工程材料分会 理事
(12) 中国复合材料学会 土木工程复合材料专业委员会 委员
(13) 第七届全国复合材料力学与工程研讨会组织委员会 副主任
(14) 第二届土木工程新材料及新型结构学术会议 组织委员会 委员
(15) 多本国际SCI期刊及中文期刊审稿人
代表性著作:
1. 著作:
《离开清华的110种方式》(章节“胡黎俐:守护12年前那颗梦想种子”), 清华大学出版社出版, 2021.
2. SCI期刊论文:
(1) Salim Cahyadi Andre, Zhang Yining, Hu Lili*, Shao Chengjian. Static and fatigue behavior of CFRP strengthened spiral welded steel tubes subjected to four-point bending. Ocean Engineering, 2024, 314, 119685.
(2) Liu Xinyu, Salim Cahyadi Andre, Ban Huiyong, Hu Lili*. Behavior of CFRP-strengthened short spiral welded tubes under axial load. Thin-Walled Structures, 2024, 205, 112408.
(3) Liang Xu, Wang Yunhao, Feng Peng, Hu Lili*. Novel strengthening method of signal tower using prestressed CFRP plates: Concept and behavior. Engineering Structures, 2024, 319, 118824.
(4) Wang Hai-Tao, Bian Zhi-Ning, Wu Qiong, Hu Lili*, Chen Min-Sheng. Development of a novel anchorage and tensioning system for strengthening steel beams with unbonded prestressed CFRP plates. Engineering Structures, 2024, 312, 118234.
(5) Zhang Yining, Hu Lili*, Shen Chen, Zhao Xiao-Ling. Study on fatigue behavior of butt-welded high-strength steel connections with surface cracks. Thin-Walled Structures, 2024, 200, 111888.
(6) Ding Xinyu, Liang Xu, Chen Man-Tai, Hu Lili*. Study on CFRP-strengthened welded steel plates with inclined welds considering welding residual stress. Materials, 2024, 17, 1804.
(7) Liang Xu, Wang Weiyong, Hu Lili*, Feng Peng. Experimental and numerical study on high-temperature performance of prestressed CFRP-reinforced steel columns. Engineering Structures, 2024, 301, 11.
(8) Chen Man-Tai, Zhang Tianyi, Gong Zhichao, Zuo Wenkang, Wang Zhongxing, Zong Liang, Zhao Ou, Hu Lili*. Mechanical properties and microstructure characteristics of wire arc additively manufactured high-strength steels. Engineering Structures, 2024, 300: 117092.
(9) Thongchom Chanachai, Hu Lili*, Sanit-in Penpichcha Khongpermgoson, Kontoni Denise-Penelope N., Praphaphankul Nitipong, Tiprak Koravith, Kongwat Suphanut. Experimental investigation on post-fire mechanical properties of glass fiber-reinforced polymer rebars. Polymers, 2023, 15(13): 2925.
(10) Hu Lili, Liang Xu, Feng Peng, Li Hai-Ting*. Temperature effect on buckling behavior of prestressed CFRP-reinforced steel columns. Thin-Walled Structures, 2023, 188: 110879.
(11) Wang Hai-Tao, Bian Zhi-Ning, Chen Min-Sheng, Hu Lili*, Wu Qiong. Flexural strengthening of damaged steel beams with prestressed CFRP plates using a novel prestressing system. Engineering Structures, 2023, 284: 115953.
(12) Hu Lili, Cao Heng, Zhang Zihan, Wang Yequan*. An advanced method for predicting the axial compressive bearing capacity of FRP-strengthened hollow section metal columns. Advances in Structural Engineering, 2023, 26(8):1–24.
(13) Chen Man-Tai, Cai Ao, Pandey Madhup, Shen Chen, Zhang Yuelong, Hu Lili*. Mechanical properties of high strength steels and weld metals at arctic low temperatures. Thin-Walled Structures, 2023, 185: 110543. (ESI高被引)
(14) Hu Lili, Feng Peng*. Theoretical analysis and design of prestressed CFRP-reinforced steel columns. Journal of Composites for Construction, ASCE, 2022, 26(3): 04022029.
(15) Hu Lili, Feng Peng*, Gao Wanyang, Wang Yunhao. Flexural behavior of light steel purlins reinforced by prestressed CFRP laminates. Thin-Walled Structures, 2022, 174: 109125.
(16) Wu Kaidong, Xing Zhe, Hu Lili*. Prestressed stayed beam-columns under eccentric compression: behaviour and prestress optimization, Engineering Structures, 2022, 256: 113996.
(17) Hu Lili, Li Mingyi, Yiliyaer Tuerxunmaimaiti, Gao Wanyang, Wang Hai-Tao*. Strengthening of cracked DH36 steel plates by CFRP sheets under fatigue loading at low temperatures. Ocean Engineering, 2022, 243: 110203.
(18) Hu Lili, Feng Peng*, Meng Yanran, Yang Jian. Buckling behavior analysis of prestressed CFRP-reinforced steel columns via FEM and ANN. Engineering Structures, 2021, 245(5): 112853.
(19) Hu Lili*, Ghafoori Elyas, Pons Stefano, Feng Peng, Yang Jian, Azim Iftikhar. Fire behavior and design of steel columns reinforced by prestressed CFRP strips. Composite Structures, 2021, 275: 114516.
(20) Hu Lili, Feng Peng*. Prestressed CFRP-reinforced steel columns under axial and eccentric compression. Composite Structures, 2021, 268: 113940.
(21) Hu Lili, Wang Yuanyuan, Feng Peng*, Wang HaiTao, Qiang Hanlin. Debonding development in cracked steel plates strengthened by CFRP laminates under fatigue loading: experimental and boundary element method analysis. Thin-Walled Structures, 2021, 166: 108038.
(22) Hu Lili, Li Weijie, Feng Peng*. Long-term behavior of CFRP plates under sustained loads. Advances in Structural Engineering, 2022: 1-15.
(23) Hu Lili, Feng Peng*, Zhao Xiao-Ling. Fatigue design of CFRP strengthened steel members. Thin-Walled Structures, 2017, 119: 482-498.
(24) Hu Lili, Zhao Xiao-Ling, Feng Peng*. Fatigue behavior of cracked high-strength steel plates strengthened by CFRP sheets. Journal of Composites for Construction, ASCE, 2016, 20(6): 04016043.
(25) Feng Peng*, Hu Lili. Steel columns strengthened / reinforced by prestressed CFRP strips: concepts and behaviors under axial compressive loads. Composite Structures, 2019, 217: 150-164.
(26) Feng Peng*, Hu Lili, Zhang Yanhua, Ye Lieping. Behavior analysis of FRP tube/filling strengthened steel members under axial compression. Thin-Walled Structures, 2019, 134: 475-490.
(27) Feng Peng*, Hu Lili, Qian Peng, Ye Lieping. Buckling behavior of CFRP-aluminum alloy hybrid long tubes in axial compression. Engineering Structures, 2017, 132: 624-636.
(28) Feng Peng*, Hu Lili, Qian Peng, Ye Lieping. Compressive bearing capacity of CFRP-aluminum alloy hybrid tubes. Composite Structures, 2016, 140:749-757.
(29) Feng Peng*, Hu Lili, Zhao Xiao-Ling, Cheng Lu, Xu Shanhua. Study on thermal effects on fatigue behavior of cracked steel plates strengthened by CFRP sheets. Thin-Walled Structures, 2014, 82:311-320. [该季度ScienceDirect Top 25 热点论文]
(30) Qiang Hanlin*, Hu Lili. Population and capital flows in metropolitan Beijing, China: empirical evidence from the past 30 years. Cities, 2022, 120, 103464.
(31) Wang Tian-Ci, Gao Wan-Yang*, Hu Lili, Hamed Ehab, Bai Yu-Lei, Zeng Jun-Jie, Yang Jian. Analytical model for predicting the post-fire bond behavior between steel bars and concrete. Construction and Building Materials, 2022, 343: 128129.
(32) Feng Peng*, Zou Yichong, Hu Lili, Liu TianQiao. Use of 3D laser scanning on evaluating reduction of initial geometric imperfection of steel column with pre-stressed CFRP. Engineering Structures, 2019, 198: 109527.
(33) Feng Peng*, Zhang Yanhua, Hu Lili, Gong Da. Buckling of piecewise member composed of steel and high-strength materials in axial compression. Thin-Walled Structures, 2017, 110:62-74. [该季度下载量最大文章之一, InCite数据库季度引用前3%]
(34) Ma Yongqi, You Yunxiang, Chen Ke, Hu Lili, Feng Aichun*. Application of harmonic differential quadrature (HDQ) method for vibration analysis of pipes conveying fluid. Applied Mathematics and Computation, 2023, 439, 127613.
(35) Iqbal Mudassir, Elbaz Khalid, Zhang Daxu*, Hu Lili, E.Jalal Fazal. Prediction of residual tensile strength of glass fiber reinforced polymer bars in harsh alkaline concrete environment using fuzzy metaheuristic models. Journal of Ocean Engineering and Science, 2023, 8, 546–558.
(36) Ouyang Li-Jun, Chai Mao-Xiang, Song Jiang, Hu Lili, Gao Wan-Yang*. Repair of thermally damaged concrete cylinders with basalt fiber-reinforced polymer jackets. Journal of Building Engineering, 2021, 44, 102673.
(37) Liu TianQiao, Tang Juntian, Zhang Shaojie, Dong Li, Hu Lili, Meng Xinmiao, Zhao Yange, Feng Peng*. Carbon emissions of durable FRP composite structures in civil engineering. Engineering Structures, 2024, 315, 118482.
(38) Yang Jia-Qi*, Feng Peng, Liu Bin, Wang Husheng, Zhao Weiping, Hu Lili. Strengthening RC beams with mid-span supporting prestressed CFRP plates: An experimental investigation. Engineering Structures, 2022, 272, 115022.
3. 计算机软件著作权:
(1) 清华大学土木系EasyFatigueforFSS软件1.0,登记号:2017SR404025
(2) 基于构件数字化模型自动计算几何初始缺陷的软件1.0,登记号:2023SR0036338
(3) 复材加固带边裂纹斜焊缝钢板疲劳寿命计算软件[简称:EasyFatigueforFSWS] V1.0,登记号:2024SR1414122
4. 专利:
(1) 结构物表面外贴加固材料的一体化装置及施工方法. 国家发明专利, ZL 202110581924.5.
(2) 一种含智能伸缩撑杆的承载力自适应组合钢构件. 国家实用新型专利, ZL 2022 2 0955156.5.
(3) 适用于壁面过渡的柔性三角爬壁履带轮及其壁面过渡方法. 国家实用新型专利, ZL 202122299595.3.
(4) 具有抗疲劳特性的FRP增强增材制造金属构件组件, 国家实用新型专利, ZL 202022879256.8.
(5) CFRP板多点支撑预应力加固的结构组件, 国家实用新型专利, ZL 2017 2 1709154.3.
(6) 抗屈曲的钢结构组件, 国家实用新型专利, ZL 2017 2 0623078.8.
(7) 预应力CFRP板增强的内平衡钢构件, 国家实用新型专利, ZL 2017 2 1748765.9.
(8) 轻钢受弯构件加固组件, 国家实用新型专利, ZL 2018 2 0504621.7.
(9) 具有抗疲劳强度的钢构件组件及加工方法, 国家实用新型专利, ZL 2019 2 1494655.3.
(10) 一种贴合曲面结构表面作业的滚压装置. 国家实用新型专利, ZL 202121450501.1.
主要科研项目:
2023-2026 上海市自然科学基金面上项目,FRP增强海洋螺旋焊管低温疲劳裂纹扩展机理研究,在研,主持
2023-2024 非金属材料创新中心(NEXCEL)创新基金TDA项目,玻纤增强复合材料筋材耐火及蠕变性能提升与应用关键技术,在研,主持
2023 北京金茂绿建科技有限公司创新项目,基于预应力FRP增强结构的通讯塔加固器件研究,结题,主持
2023-2025 国家青年托举工程基金,在研,主持
2022-2024 国家自然科学基金青年基金项目,海洋工程用FRP外覆增强螺旋焊接钢管疲劳性能研究,在研,主持
2021-2024 上海市科委2021年扬帆计划,腐蚀与疲劳荷载耦合作用下FRP外覆增强海洋钢管结构长期性能研究,结题,主持
2021-2023 海洋工程国家重点实验室开放课题,FRP增强海洋工程螺旋焊管疲劳与冲击性能研究,结题,主持
2020-2023 上海交通大学“双一流”建设项目人才科研启动基金,结题,主持
2017-2019 国家工业建筑诊断与改造工程技术研究中心开放基金课题,CFRP抗疲劳加固钢吊车梁理论机理研究,结题,主持
2023-2026 国家重点研发计划,地下工程结构用高性能纤维增强复合材料研制及应用技术,参与
2017-2020 国家重点研发计划,纤维增强复合材料性能提升与建筑高效利用的结构设计理论及方法研究,参与
2016-2017 横向项目,北关大道跨北运河桥复合材料(FRP)复杂曲面封护系统工程分析与设计咨询,参与
获奖情况:
国际先进材料协会科学家奖(IAAM Scientist Medal)
国家青年人才托举计划(当届结构工程方向全国唯二入选)
上海交通大学青年岗位能手
上海交通大学第八届青年教师教学竞赛 一等奖 (自然科学应用学科组 第1名)
上海交通大学黄金枝土木建筑奖研金 二等奖
第四届金茂绿建高校创新大赛二等奖(全国第3名,建筑结构类第1名)
北京市普通高等学校优秀毕业生
清华大学启航奖 金奖
清华大学校设综合一等奖学金:清华之友-中国石油奖学金
清华大学土木系设综合二等奖学金:金门奖学金
清华大学校设综合一等奖学金:清华之友-中国航天科技CASC奖学金
清华大学优秀硕士毕业生
清华大学校级优秀硕士学位论文
“上纬杯”第二届全国大学生复合材料设计与制作大赛海报评比一等奖
“上纬杯”第一届全国大学生复合材料设计与制作大赛机械臂竞赛二等奖、海报评比一等奖
2015年、2016年硕士研究生国家奖学金
2011-2012年度、2012-2013年度国家奖学金
世界工程师峰会(World Engineers Summit) 青年工程师竞赛 国际大学生组一等奖(第1名)