Dr. Qingyuan Wang
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Dr. Qingyuan Wang

Professor
Sichuan University, China

Highest Degree
Ph.D. in Materials, Mechanics and Structures from The National Center for Scientific Research, France

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Biography

Dr. Wang Qingyuan is a Full Professor of Sichuan University since 2001 and currently the President of Chengdu University. His research activity is focused on Advanced Concrete, Recycled Aggregate Concrete, Green Constructional Material, Mechanical Behavior of Structural Materials and Structures under Cyclic Loading, Composite Repairs of Damaged Structures. He received his PhD in 1998 from Ecole Centrale Paris, France, followed by postdoctoral experience from 1999 to 2003 in Faculty of Engineering of Purdue University and JSPS Fellow at Kagoshima University, Japan. Dr. Wang has published over 150 technical papers in refereed journals and conference proceedings in the areas of Mechanics, Materials and Structures. Dr. Wang was enlisted Scientist for 100 Talents Program of Chinese Academy of Sciences in 2003. He received the First class Natural Science Award of Research on VHCF in 2006 from National Ministry of Education, the First class Science Research Award in 2014 from Sichuan Province Government, the special award of Chinese Central Government in 2008 and National Science Fund for Distinguished Young Scholars in 2009. He served as Co-Chief Editor for Chinese Journal of Experimental Mechanics, Editorial Committee member for Fatigue Fracture Eng Mater Structures, etc. He is Co-Chairman of organizing committee for VHCF6-2014.

Area of Interest:

Engineering
100%
New Constructional Materials
62%
Wastes Recycling
90%
Low-Carbon Disposal Technology
75%
Structural Materials
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
0
Abstracts
0

Selected Publications

  1. Wang, Z.Y. and Q.Y. Wang, 2015. Fatigue strength of CFRP strengthened welded joints with corrugated steel plates. Compos. Part B: Eng., 72: 30-39.
    CrossRef  |  Direct Link  |  
  2. He, C., C. Huang, Y. Liu, J. Li and Q. Wang, 2015. Effects of mechanical heterogeneity on the tensile and fatigue behaviours in a laser-arc hybrid welded aluminium alloy joint. Mater. Des., 65: 289-296.
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  3. Wang, Z. and Q. Wang, 2014. Fatigue assessment of welds joining corrugated steel webs to flange plates. Eng. Struct., 73: 1-12.
    CrossRef  |  Direct Link  |  
  4. Liu, Y.J., S.M. Cui, C. He, J.K. Li and Q.Y. Wang, 2014. High cycle fatigue behavior of implant Ti-6Al-4V in air and simulated body fluid. Bio-Med. Mater. Eng., 24: 263-269.
    CrossRef  |  PubMed  |  Direct Link  |  
  5. Huang, Z.Y., J.L. Chaboche, Q.Y. Wang, D. Wagner and C. Bathias, 2014. Effect of dynamic strain aging on isotropic hardening in low cycle fatigue for carbon manganese steel. Mater. Sci. Eng.: A, 589: 34-40.
    CrossRef  |  Direct Link  |  
  6. Huang, C.X., W.P. Hu and Q.Y. Wang, 2014. Strain-rate sensitivity, activation volume and mobile dislocations exhaustion rate in nanocrystalline Cu-11.1 at%Al alloy with low stacking fault energy. Mater. Sci. Eng.: A, 611: 274-279.
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  7. He, C., C. Huang, Y. Liu and Q. Wang, 2014. Fatigue damage evaluation of low-alloy steel welded joints in fusion zone and heat affected zone based on frequency response changes in gigacycle fatigue. Int. J. Fatigue, 61: 297-303.
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  8. Chen, Y., Z. Pen, Q. Wang and J. Zhu, 2014. Crystalline structure, ferroelectric properties, and electrical conduction characteristics of W/Cr co-doped Bi4Ti3O12 ceramics. J. Alloys Compd., 612: 120-125.
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  9. Wang, Q.Y. and Z.Y. Huang, 2013. Super-Long Life Fatigue. In: Encyclopedia of Tribology, Wang, Q.J. and Y.W. Chung (Eds.). Springer, New York, USA., ISBN: 978-0-387-92896-8, pp: 3387-3397.
  10. Khan, M.K. and Q.Y. Wang, 2013. Investigation of crack initiation and propagation behavior of AISI 310 stainless steel up to very high cycle fatigue. Int. J. Fatigue, 54: 38-46.
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  11. Fan, H. and Q. Wang, 2013. A complete absorption mechanism of stacking fault tetrahedron by screw dislocation in copper. J. Nuclear Mater., 441: 211-215.
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  12. Dong, J., Q. Wang and Z. Guan, 2013. Structural behaviour of RC beams with external flexural and flexural-shear strengthening by FRP sheets. Compos. Part B: Eng., 44: 604-612.
    CrossRef  |  Direct Link  |  
  13. Wang, Q., M.K. Khan and C. Bathias, 2012. Current understanding of ultra-high cycle fatigue. Theoret. Applied Mech. Lett., Vol. 2, No. 3. 10.1063/2.1203102.
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  14. Wang, Q., 2012. Special subject on very high cycle fatigue. Theoret. Applied Mech. Lett., Vol. 2, No. 3. 10.1063/2.1203101.
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  15. Wang, C., D. Wagner, Q.Y. Wang and C. Bathias, 2012. Gigacycle fatigue initiation mechanism in Armco iron. Int. J. Fatigue, 45: 91-97.
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  16. Shi, X.S., F.G. Collins, X.L. Zhao and Q.Y. Wang, 2012. Mechanical properties and microstructure analysis of fly ash geopolymeric recycled concrete. J. Hazard. Mater., 237-238: 20-29.
    CrossRef  |  Direct Link  |  
  17. Dong, J.F., Q.Y. Wang and Z.W. Guan, 2012. Structural behaviour of RC beams externally strengthened with FRP sheets under fatigue and monotonic loading. Eng. Struct., 41: 24-33.
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  18. Xiao, Z., T.C. Ling, S.C. Kou, Q. Wang and C.S. Poon, 2011. Use of wastes derived from earthquakes for the production of concrete masonry partition wall blocks. Waste Manage., 31: 1859-1866.
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  19. Wang, Z.Y., W. Tizani and Q.Y. Wang, 2010. Strength and initial stiffness of a blind-bolt connection based on the T-stub model. Eng. Struct., 32: 2505-2517.
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  20. Wang, Q.Y., T. Lib and X.G. Zenga, 2010. Gigacycle fatigue behavior of high strength aluminum alloys. Procedia Eng., 2: 65-70.
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  21. Wang, Q.Y., M.R. Sriraman, N. Kawagoishi and Q. Chen, 2006. Fatigue crack growth of bonded composite repairs in gigacycle regime. Int. J. Fatigue, 28: 1197-1201.
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  22. Wang, Q.Y., N. Kawagoishi, T. Li and Q. Chen, 2004. Super long life fatigue in nitrided high strength steels. Key Eng. Mater., 274-276: 217-222.
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  23. Wang, Q.Y., N. Kawagoishi, Q. Chen and R.M. Pidaparti, 2004. Fatigue life enhancement of defective structures by bonded repairs. Struct. Eng. Mech., 18: 289-295.
  24. Wang, Q.Y., N. Kawagoishi, N. Yan and Q. Chen, 2004. Super-long life fatigue behavior of structural aluminum alloys. Key Eng. Mater., 261-263: 1287-1294.
    CrossRef  |  Direct Link  |  
  25. Wang, Q.Y., N. Kawagoishi and Q. Chen, 2004. Fatigue voids in structural Al-alloys under high-frequency cyclic loading. J. Mater. Sci., 39: 365-367.
    CrossRef  |  Direct Link  |  
  26. Wang, Q.Y. and C. Bathias, 2004. Fatigue characterization of a spheroidal graphite cast iron under ultrasonic loading. J. Mater. Sci., 39: 687-689.
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  27. Wang, Q.Y., N. Kawagoishi and Q. Chen, 2003. Effect of pitting corrosion on very high cycle fatigue behavior. Scripta Materialia, 49: 711-716.
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  28. Wang, Q.Y., C. Bathias, N. Kawagoishi and Q. Chen, 2002. Effect of inclusion on subsurface crack initiation and gigacycle fatigue strength. Int. J. Fatigue, 24: 1269-1274.
    CrossRef  |  Direct Link  |  
  29. Wang, Q.Y. and R.M. Pidaparti, 2002. Static characteristics and fatigue behavior of composite-repaired aluminum plates. Composites Struct., 56: 151-155.
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  30. Wang, Q.Y., M.J. Palakal and R.M. Pidaparti, 2001. Comparative study of corrosion-fatigue in aircraft materials. AIAA J., 39: 325-330.
    CrossRef  |  Direct Link  |  
  31. Pidaparti, R.M., Q.Y. Wang and D.B. Burr, 2001. Modeling fatigue damage evolution in bone. Biomed. Mater. Eng., 11: 69-78.
    PubMed  |  Direct Link  |  
  32. Aglan, H., Q.Y. Wang and M. Kehoe, 2001. Fatigue behavior of bonded composite repairs. J. Adhesion Sci. Technol., 15: 1621-1634.
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