赵而年 工学博士,硕士生导师,国家一级注册结构工程师
职 称: 教授 |
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电 话: 158****6093 |
邮 箱: zhaoern@sdjzu.edu.cn |
通信地址: 济南市历城区凤鸣路山东建筑大学部重楼BZ302室 |
2012.09-2017.06 武汉理工大学 土木工程 工学博士(提前攻博)
2010.09-2012.12 武汉理工大学 结构工程 工学硕士
2006.09-2010.06 济南大学 土木工程 工学学士
2025.01-至今 山东建筑大学 土木工程学院 教授
2019.10-2025.01 山东建筑大学 土木工程学院 讲师
2017.08-2019.09 中国绿发投资集团有限公司 工程建设部 工程师
无机胶复合竹材料及结构
钢结构疲劳与断裂
学术成果 Selected Publications |
[1] Ernian Zhao, Qi Song, Xin Zhang*, Shuming Li. Shear performance of H-shaped steel to novel inorganic-bonded bamboo composite connections: Experimental tests and prediction models. Engineering Structures, 2025, 119975.
[2] Ernian Zhao, Jinhui Liu, Xin Zhang*, Fei Wang. Eccentric compression behavior of inorganic-bonded bamboo composite columns. Structures, 2025,72,108287.
[3] Ernian Zhao, Shaohua Yu, Chao Yang, Xin Zhang, Fei Wang*, Dehu Yu. Pull-out behavior of glulam connections with glued-in rod loaded parallel to the grain. The Journal of Adhesion, 2025. 2458558.
[4] Jing-Ru Yao, Ernian Zhao*, Chao Yang, Xin Zhang, Fei Wang, Qi Song. Experimental study on bond performance of the single glued-in rod in inorganic-bonded bamboo composite parallel to the grain. Wood Material Science & Engineering, 2025, 2471941.
[5] Fei Wang, Jinhui Liu, Ernian Zhao*, Xin Zhang, Li Shuming. Axial compression performance of inorganic-bonded bamboo composite columns. Mechanics of Advanced Materials and Structures, 2025, 2467848.
[6] Ernian Zhao, Shaohua Yu, Xin Zhang*, Jing-Ru Yao, Shuming Li. Enhancing the local compressive strength perpendicular to the grain of inorganic-bonded bamboo composite using glued-in rods. Construction and Building Materials, 2024,456: 139267.
[7] Ernian Zhao, Qi Song, Jing-Ru Yao*, Xin Zhang. Study of shear performance of steel-timber composite connection with different shear connectors. Case Studies in Construction Materials, 2024, 21, e04066.
[8] Ernian Zhao, Shaohua Yu, Shuming Li, Xin Zhang*. Experiment and enhancement of compressive strength perpendicular to the grain of inorganic-bonded bamboo composite. Wood Material Science & Engineering, 2024, 2404251.
[9] Xin Zhang, Mingyun Zhao, Ernian Zhao*, Jinhui Liu, Qiaoling Liu, Shuming Li, Hang Yin, Chao Yang, Xiurong Li. Experimental investigation into mechanical properties of inorganic-bonded bamboo composite for structural applications. Construction and Building Materials, 2024, 427:136247.
[10] Xin ZHANG, Mingyun ZHAO, Ernian ZHAO*, Shuming LI, Qiaoling LIU, Qingxia YUE. Experimental investigation on duration of load effect of novel inorganic-bonded bamboo composite under flexural load. Construction and Building Materials, 2024, 421: 135688.
[11] Ernian ZHAO, Hang YIN*, Xin ZHANG*, Shuming LI, Shurong Ll, Qiaoling Liu. Evaluating the load-carrying performance of single-bolted connections of inorganic-bonded bamboo composite. Wood Material Science & Engineering, 2024,19, 2303404.
[12] Xin ZHANG, Yu GONG, Ernian ZHAO*, Qi SONG, Shuming LI, Qiaoling LIU. Experimental investigation on the post-fire mechanical properties and charring rate of inorganic-bonded bamboo composite exposed to fire. Fire Safety Journal, 2024, 146:104159.
[13] Xin Zhang, Yepu Sheng, Ernian Zhao*,Hang Yin, Shuming Li, Shurong Li, Qiaoling Liu. Experiment and finite element analysis on load-carrying performance of double-shear connections of inorganic-bonded bamboo composite. Journal of Building Engineering, 2024, 76: 107323.
[14] Xin Zhang, Jinhui Liu, Ernian Zhao*, Shuming Li, Qiaoling Liu, Shaohua Yu. Experimental investigation into mechanical performance of novel inorganic-bonded bamboo composite columns under axial compression. Structures, 2023, 58: 105435.
[15] Xin Zhang, Hang Yin, Ernian Zhao*, Shuming Li, Qiaoling Liu. Experimental investigation on embedment strength of bamboo-based composite prepared with the inorganic adhesive. Journal of Building Engineering, 2023,76:107323.
[16] 张鑫, 尹航, 赵而年*, 刘金辉.高温(火灾)后Q355qNH桥梁耐候钢的力学性能试验研究.材料导报, 2023,37(23):185-190.
[17] Hang Yin, Ernian Zhao*, Xin Zhang, Kai Yan. Evaluating post-fire mechanical performance of S355J2W weathering steel with different artificial cooling approaches. Case Studies in Construction Materials, 2023, 18: e02101.
[18] Ernian Zhao, Hang Yin*, Jinhui Liu, Xin Zhang. Experimental and comparative investigation on fatigue performance of three typical welded joints of Q370qNH bridge weathering steel. Case Studies in Construction Materials, 2023, 19: e02630.
[19] Ernian Zhao, Chenning Song, Xin Zhang, Qiang Zhou*, Kai Yan. Experimental study on monotonic, cyclic mechanics and fatigue performance of pressed cone sleeve splices. Structures, 2022,39:482–495.
[20] 赵而年, 孙洪斌, 张鑫, 周强*. 高性能桥梁耐候钢典型焊缝接头疲劳性能试验研究.桥梁建设,2022, 52(2):75-81.(EI, T1)
[21] Ernian Zhao, Qiang Zhou, Weilian Qu, Wenming Wang*. Fatigue Properties Estimation and Life Prediction for Steels under Axial, Torsional, and In-Phase Loading. Advances in Materials Science and Engineering, 2020.
[22] Weilian Qu, Ernian ZHAO, Qiang Zhou, Yong-Lin Pi*,Multiaxial low-cycle fatigue life evaluation under different non-proportional loading paths. Fatigue and Fracture of Engineering Materials & Structures, 2018.
[23] 赵而年*, 瞿伟廉. 一种新的多轴非比例低周疲劳寿命预测临界面模型. 力学学报, 2016.
[24] 赵而年*, 瞿伟廉, 周强. 多轴加载条件下结构钢及焊接件的低周疲劳性能试验研究.建筑结构学报,2016.
[25] 赵而年*, 瞿伟廉, 周强. 基于临界面损伤参量的多轴疲劳寿命预测. 华南理工大学学报(自然科学版), 2016.
[26] Ernian ZHAO, Weilian QU. Fracture parameter calculation of stationary cracks with eXtended Finite Element Method. The proceedings of the 13th international symposium on structural engineering, Oct. 24-27, 2014, Hefei, China
[27] Weilian QU, Youlin XU, Yong XIA, Chun XIAO, Ernian ZHAO. Experiment on Smart High-rise Steel Tower Structure Test System with Automatic Damage Diagnosis Functions. Proceedings of the 6th International Conference on Structural Health Monitoring of Intelligent Infrastructure, Dec 9-11, 2013, Hong Kong, China.
[1] 国家自然科学基金面上项目,改性硫氧镁无机胶复合竹梁抗火性能提升机理与抗火设计(52478533),2025-2028,项目负责人
[2] 国家自然科学基金面上项目,框架结构附加开缝耗能腹板双目标抗震加固设计方法与性能评估(52378307),2024-2027,参与
[3] 山东省重点研发计划(重大科技创新工程),绿色智能建造和建筑工业化关键技术、成套装备及应用(2021CXGC011204),2021-2024,主要参与人
[4] 济南市“新高校20条”自主培育创新团队项目,高性能无机胶复合木结构智能建造关键技术及工程应用(202228057),2022-2025,主要参与人,项目联系人
[5] 国家自然科学基金重点项目,风和强震作用下高耸高层钢结构焊缝疲劳劣化机理与寿命预测方法(51438002),主要完成人
[6] 国家自然科学基金面上项目,强烈地震下多高层钢框架焊接结点裂纹萌生与扩展疲劳寿命的预测和评估(51378409),主要完成人
[7] 山东建筑大学工程鉴定加固研究院产学研委托研发课题,新型无机胶复合竹(木)节点承载机理与设计方法研究,2022,项目负责人
[8] 山东路桥集团委托项目,模块化装配式钢筋骨架连接成套技术研究,2020,项目负责人
[9] 山东大学委托项目,高性能耐候钢焊接材料试验、焊接工艺研究与应用,2020,项目负责人
学术兼职 Professional Service |
中国钢结构协会结构稳定与疲劳分会青年理事
中国消防协会耐火构配件分会理事
山东土木建筑学会竹木结构建筑专业委员会秘书长
