Hi, I am Qingyuan Wang, My LiveDNA is 86.9257
 
   
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Dr. Qingyuan Wang
 
Highest Degree: Ph.D. in Materials, Mechanics and Structures from The National Center for Scientific Research, France
 
Institute: Sichuan University, China
 
Area of Interest: Engineering
  •   New Constructional Materials
  •   Wastes Recycling
  •   Low-Carbon Disposal Technology
  •   Structural Materials
 
URL: http://livedna.org/86.9257
 
My SELECTED Publications
1:   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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2:   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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3:   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.
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4:   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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5:   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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6:   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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7:   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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8:   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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9:   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.
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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:   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.
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12:   Pidaparti, R.M., Q.Y. Wang and D.B. Burr, 2001. Modeling fatigue damage evolution in bone. Biomed. Mater. Eng., 11: 69-78.
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13:   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.
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14:   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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15:   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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16:   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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17:   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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18:   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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19:   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.
20:   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.
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21:   Wang, Q.Y., M.J. Palakal and R.M. Pidaparti, 2001. Comparative study of corrosion-fatigue in aircraft materials. AIAA J., 39: 325-330.
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22:   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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23:   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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24:   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.
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25:   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.
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26:   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.
27:   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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28:   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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29:   Wang, Z. and Q. Wang, 2014. Fatigue assessment of welds joining corrugated steel webs to flange plates. Eng. Struct., 73: 1-12.
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30:   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.
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31:   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.
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32:   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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33:   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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