Curriculum Vitae s233
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Curriculum Vitae
Yongqiang Li
Mechanical Engineering University of South Carolina Columbia, SC 29208 Tel: 803-777-1279 Fax: 803-777-0106
Education
2004 M.S. Mechanical Engineering University of South Carolina 2002 B.E. Engineering Mechanics Tsinghua University Beijing, China
Research Interests Mechanics of Materials
Professional Experiences Aug 2002-present Graduate Research Assistant to Dr. A. P. Reynolds in the Department of Mechanical Engineering, University of South Carolina
Friction Stir Welding of Titanium and alloys;
Micro structure/texture evolution during FSW of Ti and alloys (orientation imaging)
Characterization of the rate-dependent response of Friction Stir Welded using Timed Digital Image Correlation
Jun 2000-July 2002 Undergraduate Research Assistant to Dr. Xishu Wang at the Laboratory of Experimental Mechanics in the Department of Engineering Mechanics, Tsinghua University Beijing, China
In situ fatigue evaluation of conductive polythiophene film and PM RENE95 with SEM (SHIMADZU SS550) Awards
July, 2002 Excellent Bachelor Theses Award Nov., 1998 Outstanding Freshmen Award
Skills
Metallurgy Epoxy mounting; Grinding and polishing; Chemical etching; Micohardness testing; Light microscope; SEM; OIM; EDX
Mechanical testing MTS universal testing machine; Specimen preparation; Digital Image Correlation; Fatigue and Fracture test
Computer Abaqus; Ansys; Autocad; C; Fortran; Labview; Mathcad; Matlab; MSc Marc; Tecplot;
English Passed the International TA Micro Class Evaluation in Aug 2002 Scored 620 in TOEFL and 4.0 in TWE in Jan 2001
Publications
1. Xi-shu Wang, Yong-qiang Li “Characterization of fatigue surface microcrack growth in vicinal inclusions in powder metallurgy alloys” ACTA Mechanica Solida Sinica 16 (2003) 327-333 2. Xi-shu Wang, Yong-qiang Li, Shou-wen Yu “Evaluation of the Thermal-mechanical Fatigue Behavior for 62Sn38Pb Solder-joints”, Experimental Techniques 27 (2003) 31-34 3. Xi-shu Wang, Yan-hong Deng, Yong-qiang Li “An experimental investigation of failure behavior of conducting polythiophene coating films”, Journal of Materials Science 37 (2002) 4865 – 4870