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宁波大学机械工程与力学学院导师教师师资介绍简介-李淑欣

本站小编 Free考研考试/2021-04-11





个人信息 Personal Information



姓名:李淑欣
Name: Shuxin Li
教授、博导 Professor, PhD
办公电话 Office Number:
Email: li_shuxin@163.com or lishuxin@nbu.edu.cn



教育背景 Education background



· 2003.9 - 2007.4,华东理工大学,机械与动力学院化工过程机械专业,博士学位;
Sep.2003 - Apr.2007 Majoring Chemical Process Mechanics in School of Mechanical and Power Engineering, East China Univ. of Science and Technology, D.E, Shanghai, China.
· 2000.9 - 2003.6,兰州理工大学,石油化工学院化工过程机械专业,硕士学位;
Sep.2000 - June 2003 Majoring Chemical Process Mechanics in School of Chemical Engineering, Lanzhou Univ. of Science and Technology, M.E, Lanzhou City, China
· 1994.9-1998.6,宁夏大学,化工学院化工过程机械专业,学士学位;
Sep.1994 June 1998 Majoring Chemical Process Mechanics in School of Mechanical Engineering, Ningxia Univ., B.E, Yinchuan City, China.



工作经历 Working experience



· 2015.12 - 现在, 宁波大学,机械工程与力学学院;
Dec. 2015 - Now, doing teaching and researching at Ningbo University.
· 2007.5 - 2015.11,兰州理工大学,石油化工学院;
Dec. 2015 - May 2007, doing teaching and researching at Lanzhou University of Technology.
· 2010.2 - 2011.8,英国谢菲尔德哈勒姆大学, 材料学院,高级研究员;
Feb.2010-Aug.2011, working on corrosion fatigue at Sheffield Hallam University (Sheffield, Uk) as a senior researcher.
· 2014.1 - 2015.1,英国谢菲尔, 机械工程系,访问****;
Jan.2014 - Jan.2015, working on rolling contact fatigue at Sheffield University (Sheffield, Uk) as an academic visitor.



研究兴趣 Research Interest



· 轴承接触疲劳性能 Rolling contact fatigue of bearings
· 金属材料微动疲劳、腐蚀疲劳性能 Fretting fatigue and corrosion fatigue
· 结构强度和可靠性 Structural strength and reliability



承担项目 Funding



承担了3项国家自然科学基金,2项省纵向课题,3项市级课题。作为主要参与人,获得国家质量监督检验检疫总局的获科技兴检二等奖;参与的项目获甘肃省科学技术进步奖二等奖。目前是全国材料学会疲劳分会理事;全国材料学会疲劳分会结构强度青年委员会委员。
Prof. Li has undertaken 3 NSFC projects, two Provincial and three City fundings. She gained Yongjiang Scholar Talent Plan of Ningbo City in 2017. As a team leader, she won the project of Fan 3315 Innovation Team of Ningbo City In 2018. Currently, she is one of members of Fatigue Branch of Chinese Materials Research Society.



发表论文 Publication



1. Cai Q, Li S X, Pu JB, Bai XB, Wang HX, Cai ZB, XZ Wang. Corrosion resistance and antifouling activities of silver-doped CrN coatings deposited by magnetron sputtering. Surface and Coatings Technology. 2018, 354: 194-202.
2. Chen J J, Liu L,Li S X*, Yu SR. Experimental and numerical investigation on crack initiation of fretting fatigue of dovetail. Fatigue Fract Eng Mater Struct. 2018, 41: 1426-1436.
3. Wan LB, Li S X*, Lu SY, Su YS. Case Study: formation of white etching layers in a failed rolling element bearing race. Wear, 2018, 396-397: 126-134.
4. Su Y S, Li S X*,Lu SY Shu XD. Deformation-induced amorphization and austenitization in white etching area of a martensite bearing steel under rolling contact fatigue. Inter. J. Fatigue. 2017, 105: 160-168.
5. Li S X*, Su YS, Shu XD, Chen JJ. Microstructural evolution in bearing steel under rolling contact fatigue. Wear, 2017, 380-381: 146-153.
6. Zhao P C, Li S X, Y.F. Jia, C.C.Zhang, X.C.Zhang. Very highcycle fatigue behaviour of Ti‐6Al‐4V alloy under corrosive environment. Fatigue Fract Eng Mater Struct. 2017, 493: 1-13.
7. Li S X*, Zhao P. C, He Y.N. Yu S R. Microstructural evolution associated with shear location of AISI 52100 under high strain rate loading. Mater. Sci. Eng. A, 2016, 662: 46-53.
8. Yun-Shuai Su, Shu-Rong Yu, Li S X*, Yan-Ni He. Review of the damage mechanism in wind turbine gearbox bearings under rolling contact fatigue. Frontiers of Mechanical Engineering. 2018, 1-8. https://doi.org/10.1007/s11465-018-0474-1.
9. Li S X, Zhang P Y, Yu S R. Experimental study on very high cycle fatigue of martensitic steel of 2Cr13 under corrosive environment. Fatigue Fract Eng Mater Struct. 2014, 37: 1146–1152.
10. Li S X*, R. Akid. Corrosion fatigue life prediction of a steel shaft material in seawater. Engineering Failure Analysis. 2013, 34: 324–334.
11. Yu S R,Song W, Li S X*. Fatigue failure mechanism of duplex stainless steel in air and seawater. Applied Mechanics and Materials, 2015, 750: 114-120.
12. Li S X*, He Y N, Yu S R. Evaluation of the effect of grain size on chromimu carbide precipitation and intergranular corrosion behavior of 316L stainless steel. Corrosion Science, 2013, 66: 211-216.
13. Li S X*, Li L, Yu S R, Akid R, Xia H B. Investigation of intergranular corrosion of 316L stainless steel diffusion bonded joint by electrochemical potentiokinetic reactivation. Corrosion Science. 2011, 53: 99-104


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