人物經曆
2003.09-2007.07,遼甯工程技術大學材料成型及控制工程,工學學士。
2007.09-2009.07,天津大學材料加工工程,工學碩士。
2009.09-2012.07,天津大學材料加工工程,工學博士。
2012.07-2014.11,北京航空航天大學與神華國華(北京)電力研究有限公司,博士後。
2014.12-2019.06,天津大學材料學院,講師。
2016.08-2017.08,英國帝國理工學院,訪問學者。
主要成就科研項目
2016.01-2018.12,國家自然科學基金委員會青年項目,51505328,考慮多裂紋幹涉影響的高溫焊接管道壽命評估方法研究,21萬元,主持。
2016年-2017年,中國廣核集團公司,含缺陷設備及部件安全性評估平台建設,主持。
2018年-2021年,國防科工委項目1項,主持。
2018.07-2022.06,科技部國家重點研發計劃,2018YFB0704003,316H管道高溫疲勞性能優化高通量模拟,85萬元,在研,主持。
2018.12-2021.01,中國焊接學會創新平台項目,民航發動機燃燒室微鍛壓輔助激光增材修複平台,主持。
2019年-2021年,國家能源集團項目,高溫新型材料壽命評估技術研究,主持。
2019年-2021年,國家能源集團項目,電站高溫材料微創疲勞-蠕變交互作用試驗研究——标準試樣蠕變-疲勞測試,主持。
2019年-2020年,中國核動力研究設計院,材料高溫蠕變實驗,主持。
2020年-2021年,中車唐山機車有限公司,不鏽鋼等離子弧焊、激光焊和電阻點焊疲勞試驗,主持。
榮譽表彰
天津市“131”創新人才第三層次。
天津大學青年骨幹教師。
天津大學沈志康獎教金。
天津大學優秀博士論文。
2018年,中國機械工業科學技術獎一等獎。
2017年,天津市科技進步一等獎。
2014年,中國電力科技成果二等獎。
2012年,天津市科技進步一等獎。
論文著作
Xu Lianyong, Zhao Lei, Gao Zhifang, Han Yongdian, Jing Hongyang, A unified creep interaction factor to characterize multiple cracks interaction at elevated temperatures, Engineering Fracture Mechanics, 2020, 223: 106786.
Zhao Lei, Xu Lianyong, Han Yongdian, Jing Hongyang, Gao Zhifang, Modelling creep-fatigue behaviours using a modified combined kinematic and isotropic hardening model considering the damage accumulation, International Journal of Mechanical Sciences, 2019, 161-162: 105016.
Zhao Lei, Song Kai, Xu Lianyong, Han Yongdian, Jing Hongyang, Zhang Yu, Li Haizhou, Determination of creep properties of an advanced FeCrNi alloy using small punch creep test with a modified creep strain model, Theoretical and Applied Fracture Mechanics, 2019, 104: 102324.
Zhao Lei, Song Kai, Xu Lianyong, Han Yongdian, Jing Hongyang, Li Haizhou, Zhang Yu, Investigating creep rupture and damage behavior of 41Fe25.5Cr23.5Ni alloy small punch creep specimens using a novel microstructure meshing approach, Materials Science and Engineering: A, 2019, 766: 138370.
Zhao Lei, Guo Wei, Xu Lianyong, Han Yongdian, Jing Hongyang, Evaluation of the multiple embedded cracks interaction effect in creep regime by creep damage method, Advances in Engineering Software, 2019, 128: 125-135.
Song Kai, Zhao Lei, Xu Lianyong, Han Yongdian, Jing Hongyang, Experimental and numerical analysis of creep and damage behavior of P92 steel by small punch tests, Theoretical and Applied Fracture Mechanics, 2019, 100: 181-190.
Zhao L., Zhao Z. Y., Xu L. Y., Han Y. D., Jing H. Y., Assessment of creep interaction of double elliptical cracks at elevated temperatures using numerical analysis, Archive of Applied Mechanics, 2018, 88(5): 691-703.
Zhao Lei, Xu Lianyong, Gao Zhifang, Han Yongdian, Jing Hongyang, Characterization crack growth behavior in creep-fatigue loading conditions through different specimen geometries, International Journal of Mechanical Sciences, 2018, 145: 246-257.
Zhao L., Nikbin K. M., Characterizing high temperature crack growth behaviour under mixed environmental, creep and fatigue conditions, Materials Science and Engineering: A, 2018, 728: 102-114.
Zhao L., Alang N., Nikbin K., Investigating creep rupture and damage behaviour in notched P92 steel specimen using a microscale modelling approach, Fatigue & Fracture of Engineering Materials & Structures, 2018, 41(2): 456-472.
Xu Lianyong, Zhao Lei, Jing Hongyang, Han Yongdian, Characterization of the creep interaction effect for twin semi-elliptical surface cracks under combined tension and bending loading, Engineering Fracture Mechanics, 2018, 192: 148-162.
Xu Lianyong, Rong Jianying, Zhao Lei, Jing Hongyang, Han Yongdian, Creep-fatigue crack growth behavior of G115 steel at 650 °C, Materials Science and Engineering: A, 2018, 726: 179-186.
Zhao Lei, Xu Lianyong, Nikbin Kamran, Predicting failure modes in creep and creep-fatigue crack growth using a random grain/grain boundary idealised microstructure meshing system, Materials Science and Engineering: A, 2017, 704: 274-286.
Xu Lianyong, Zhao Lei, Jing Hongyang, Han Yongdian, Evaluation of multiple cracks interaction effect subjected to biaxial tension under creep regime, International Journal of Mechanical Sciences, 2017, 122: 203-214.
Xu Lianyong, Zhao Lei, Han Yongdian, Jing Hongyang, Gao Zhifang, Characterizing crack growth behavior and damage evolution in P92 steel under creep-fatigue conditions, International Journal of Mechanical Sciences, 2017, 134: 63-74.
Xu Lianyong, Zhao Lei, Gao Zhifang, Han Yongdian, A novel creepfatigue interaction damage model with the stress effect to simulate the creep–fatigue crack growth behavior, International Journal of Mechanical Sciences, 2017, 130: 143-153.
Xu Lianyong, Zhang Xingfu, Zhao Lei, Han Yongdian, Jing Hongyang, Characterization of creep crack-tip constraint levels for pressurized pipelines with axial surface cracks, Advances in Engineering Software, 2017, 134: 63-74.
Xu Lianyong, Zhang Xingfu, Zhao Lei, Han Yongdian, Jing Hongyang, Quantifying the creep crack-tip constraint effects using a loadindependent constraint parameter Q*, International Journal of Mechanical Sciences, 2016, 119: 320-332.
Xu Lianyong, Wang Yongfa, Jing Hongyang, Zhao Lei, Han Yongdian, Deformation Mechanism and Microstructure Evolution of T92/S30432 Dissimilar Welded Joint During Creep, Journal of Materials Engineering and Performance, 2016, 25(9): 3960-3971.
Zhao Lei, Xu Lianyong, Han Yongdian, Jing Hongyang, Twoparameter characterization of constraint effect induced by specimen size on creep crack growth, Engineering Fracture Mechanics, 2015, 143: 121-137.
Zhao Lei, Xu Lianyong, Han Yongdian, Jing Hongyang, Quantifying the constraint effect induced by specimen geometry on creep crack growth behavior in P92 steel, International Journal of Mechanical Sciences, 2015, 94–95(0): 63-74.
社會任職
中國焊接學會焊接力學及結構設計與制造專委會委員及秘書長。
中國焊接學會青委會委員。
中國能建集團天津市管道加工與焊接技術企業重點實驗室學術委員會主任。
