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赵雷 讲师

焊接与先进制造研究所

电话: 无

Email: zhaolei85@tju.edu.cn

研究所: 焊接与先进制造技术研究所

个人简历

教育背景:

2003.09 – 2007.07辽宁工程技术大学材料成型及控制工程,工学学士
2007.09 – 2009.07天津大学材料加工工程,工学硕士

2009.09 – 2012.07天津大学材料加工工程,工学博士.

工作经历:

2012.07 – 2014.11,北京航空航天大学与神华国华(北京)电力研究有限公司,博士后

2016.08 – 2017.08,英国帝国理工学院,访问学者
2014.12 - 至今,天津大学材料学院

研究方向

焊接应力与变形控制与模拟计算、金属材料高温蠕变性能和机理、高温下焊接结构完整性与寿命评估等方面的研究

承担项目

国家自然科学基金青年基金项目:考虑多裂纹干涉影响的高温焊接管道蠕变寿命评估方法研究.

天津大学自主创新基金

标志性成果

发表文章、专利、专著(代表作):

 

[1]    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.

[2]    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. 2017.

[3]    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.

[4]    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.

[5]    Xu Lianyong, Zhao Lei*, Gao Zhifang, Han Yongdian. A novel creep–fatigue interaction damage model with the stress effect to simulate the creep–fatigue crack growth behavior. International Journal of Mechanical Sciences. 2017, 130: 143-153.

[6]    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.

[7]    Jing Hongyang, Su Dingbang, Xu Lianyong, Zhao Lei, Han Yongdian, Sun Ruiwen. Finite element simulation of creep-fatigue crack growth behavior for P91 steel at 625 °C considering creep-fatigue interaction. International Journal of Fatigue. 2017, 98: 41-52.

[8]    Xu Lianyong, Zhang Xingfu, Zhao Lei*, Han Yongdian, Jing Hongyang. Quantifying the creep crack-tip constraint effects using a load-independent constraint parameter Q*. International Journal of Mechanical Sciences. 2016, 119: 320-332.

[9]    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: 3960-3971.

[10]  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: 63-74.

[11]  Zhao Lei, Liang Jun, Zhong Qunpeng, Yang Chao, Sun Biao, Du Jinfeng. Numerical simulation on the effect of welding parameters on welding residual stresses in T92/S30432 dissimilar welded pipe. Advances in Engineering Software. 2014, 68: 70-79.

[12]  Zhao Lei, Jing Hongyang, Xiu Junjie, Han Yongdian, Xu Lianyong. Experimental investigation of specimen size effect on creep crack growth behavior in P92 steel welded joint. Materials & Design. 2014, 57: 736-743.

[13]  Xu Lianyong, Miao Yi, Jing Hongyang, Han Yongdian, Jiang Yunjian, Tian Xuhai, Gao Jie'An. Experimental and Numerical Investigation of Heated Band Width for Local Post Weld Heat Treatment of ASME P92 Steel Pipe. Journal of Pressure Vessel Technology. 2014, 136: 011401.

[14]  Zhao Lei, Jing Hongyang, Xu Lianyong, Han Yongdian, Xiu Junjie, Qiao Yaxia. Evaluating of creep property of distinct zones in P92 steel welded joint by small punch creep test. Materials & Design. 2013, 47: 677-686.

[15]  Zhao Lei, Jing Hongyang, Xu Lianyong, Han Yongdian, Xiu Junjie. Effect of residual stress on creep crack growth behavior in ASME P92 steel. Engineering Fracture Mechanics. 2013, 110: 233-248.

[16]  Zhao Lei, Jing Hongyang, Xu Lianyong, Han Yongdian, Xiu Junjie. Analysis of creep crack growth behavior of P92 steel welded joint by experiment and numerical simulation. Materials Science and Engineering: A. 2012, 558: 119-128.

[17]  Zhao Lei, Jing Hongyang, Xu Lianyong, Han Yongdian, Xiu Junjie. Evaluation of constraint effects on creep crack growth by experimental investigation and numerical simulation. Engineering Fracture Mechanics. 2012, 96: 251-266.

[18]  Zhao Lei, Jing Hongyang, Xu Lianyong, Han Yongdian, Xiu Junjie. Experimental study on creep damage evolution process of Type IV cracking in 9Cr–0.5Mo–1.8W–VNb steel welded joint. Engineering Failure Analysis. 2012, 19: 22-31.

[19]  Zhao Lei, Jing Hongyang, Xu Lianyong, An Junchao, Xiao Guangchun. Numerical investigation of factors affecting creep damage accumulation in ASME P92 steel welded joint. Materials & Design. 2012, 34: 566-575.

[20]  Zhao Lei, Jing Hongyang, Han Yongdian, Xiu Junjie, Xu Lianyong. Prediction of creep crack growth behavior in ASME P92 steel welded joint. Computational Materials Science. 2012, 61: 185-193.

[21]  Zhao Lei, Jing Hongyang, Xu Lianyong, An Junchao, Xiao Guangchun, Xu Delu, Chen Yucheng, Han Yu. Investigation on mechanism of Type IV cracking in P92 steel at 650 °C. Journal of Materials Reasearch. 2011, 26: 934-943.

[22]  徐连勇,赵雷,荆洪阳,韩永典。超小型微创高温蠕变疲劳试验机及其应用,发明专利,授权号:ZL20122012240720142月。