Professor, Department of Chemical and Biological Engineering

 

Zhejiang University, Yuquan Campus
38 Zheda Road
Hangzhou, China 310027

 

Other Appointments

Vice-director, Institute of Process Equipments

 

Professional Activities

Fellow, Chinese Mechanical Engineering Society
Fellow, Chinese Mechanics Society

 

Education

Ph.D. –Northeastern University, Mechanical Engineering, 1996
M. S – Northeastern University, Mechanical Engineering, 1989,
B.S. – Nanjing Institute of Technology, Mechanical Engineering, 1984

Working Experience

2008-, Professor, Department of Chemical and Biological Engineering, Zhejiang University
2007-2008, Visiting professor, Fachgebiet Werkstoffmechanik, Technische Universitat Darmstadt, Germany
2005-2007, Professor, Department of Mechanics, Zhejiang University
2004-2005, Associate professor, Department of Mechanics, Zhejiang University
2002-2004, JSPS Postdoctoral Research Fellow, National Institute for Materials Science, Japan
1998-2002, Associate professor, Department of Mechanics, Zhejiang University
1996-1998, Postdoctoral Research Fellow, Department of Aeronautic Engineering, Northwestern Polytechnical University
1990-1993, Lecturer, Department of Mechanical Engineering, Nanjing Institute of Technology
 

Awards and Honors

JSPS Postdoctoral Fellowship for Foreign Researchers（Japan）, 2001
DAAD award for visiting professor（Germany），2007
Honorary fellows of Australian Institute of High Energetic Materials, 2010

 

Research Interests

1. Mechanical behavior of engineering materials at macro-, meso- and nano-scales
2. Damage evaluation technique based on the instrumented indentation measurements
3. Fatigue life prediction technique of structural element under complex loading
4. Fatigue strength assessment of welded joints

 

Publication List

Published contributions to international Journals
[1] Ye D., Xu X., Xiao L., Cha H. (2010). Effects of low-cycle fatigue on static mechanical properties, microstructures and fracture behavior of 304 stainless steel，Material Science and Engineering-A, 456,120-129.
[2] Ye, D., Hertel, O. and Vormwald, M. (2008): A unified expression of elastic-plastic notch stress-strain calculation in bodies subjected to multiaxial cyclic loading. International Journal of Solids and Structures, 45, 6177-6189.
[3] Ye, D., Zheng, J. (2008): A Model for the Determination of Residual Fatigue-Life of a Nickel-Based. ASME-Journal of Engineering Materials and Technology 130, 031010 1-8.
[4] Ye, D., Zheng, J. (2008): High temperature low-cycle fatigue, deformation microstructure and final fracture behavior of a nickel-base superalloy. Key Engineering Materials 378-379, 249-270.
[5] Ye, D., Matsuoka, S. and Nagashima, N. (2007): Determination of fatigue mesoscopic mechanical properties of an austenitic stainless steel using depth-sensing indentation (DSI) technique. Material Science and Engineering-A, 456,120-129.
[6] Ye, D., Matsuoka, S., Nagashima, N. and Suzuki, N. (2006): The Low cycle fatigue, deformation and final fracture behaviour of an austenitic stainless steel. Material Science and Engineering-A, 415/1-2,104-117.
[7] Ye, D. (2005), Effect of cyclic straining at elevated-temperature on static mechanical properties, microstructures and fracture behaviour of nickel-based superalloy GH4145/SQ. International Journal of Fatigue 27/9,1102-1114.
[8] Ye, D., Matsuoka S., Nagashima, N. and Suzuki, N. (2005): Multi-scale deformation behaviour investigation of 18Cr-8Ni stainless steel subjected to low-cycle fatigue loading. Materials Characterization 55/2,106-117.
[9] Ye, D. (2005). Investigation of cyclic deformation behaviour in the surface layer of 18Cr-8Ni austenitic stainless steel based on Vickers microhardness measurement, Materials Chemistry and Physics 93/2-3, 495-503.
[10] Ye, D., Wang, Z. and Yin, X. (2005): An investigation of the effect of high-temperature cyclic straining and creep loading on tensile mechanical properties of GH4145/SQ alloy. Journal of Materials Science 40,483-494.
[11] Ye, D., Matsuoka, S., Suzuki, N. and Maeda, Y. (2004): Further investigation of Neuber’s rule and the equivalent strain energy density (ESED) method, International Journal of Fatigue 26: 447-455.
[12] Ye, D., Ping Dehai, Wang, Z., Xu, H., Mei, X., etal (2004): Low cycle fatigue behavior of nickel-based superalloy GH4145/SQ at elevated temperature. Material Science and Engineering-A 373: 54-64.
[13] Ye, D. and Wang, Z. (2001): A new approach to Low-Cycle fatigue damage based on exhaustion of static toughness and dissipation of cyclic plastic strain energy during fatigue. International Journal of Fatigue 23, 679-687.
[14] Ye, D. and Wang, Z. (2001): Change characters of static mechanical property parameters and dislocation structures of 45# medium carbon structural steel during fatigue failure process. Material Science and Engineering-A 297/1-2,54-61.
[15] Ye, D. and Wang, Z. (2001): An approach to investigate pre-nucleation fatigue damage of cyclically loaded metals using Vickers microhardness tests. International Journal of Fatigue 23,85-91.
[16] Ye, D., Tung, X. and Yao, L. and Yin, X. (1998): Fatigue hardening/ softening behaviour investigated through Vickers microhardness measurement during high-cycle fatigue. Materials Chemistry and Physics 56, 199-204.
[17] Ye, D. and Wang, D. (1996): A new approach to prediction of fatigue reduction factor Kf . International Journal of Fatigue 18 (2), 105-109.
[18] Ye, D., Wang D. and Ping A. (1996): Characteristics of the change in the surface microhardness during high cycle fatigue damage. Materials Chemistry and Physics, 44, 179-181.

 

Conference List

[1] Ye D., Cha H., Xiao L., Xu X., A study of fatigue mesoscopic elasto-plastic properties of a nickel-base superalloy by instrumented microindentation measurements，ICMPM2010，May 24-28, Hangzhou, China（invited presentation, as a session chair）
[2] Ye D.*, Haibo Cha, Xuandong Xu and Lei Xiao，Investigation of fatigue mesoscopic mechanical properties of a nickel-based superalloy by instrumented microindentation measurements，2010 Materials Science & Technology Conference and Exhibition (International Symosium on Fatigue of Materials), October 17-21, 2010, Houston, Texas, USA (invited presentation, as a session chair)
[3] Ye, D., Li, M. and Cha, H. (2008): Investigation of Fatigue Mechanical Properties of a polycrystalline solid at mesoscopic scale using depth-sensing indentation (DSI) technique. Proceeding of the 2nd International Conference on Heterogeneous Material Mechanics (ICHMM-2008) at Huangshan, China, June 2008, 285-286.
[4] Ye, D., (2004). A new continuum damage mechanics model for high-temperature low cycle fatigue failure of Nickel-based superalloy, Proceedings of International Conference on Fracture and Damage of Advance Matrerials at Hangzhou, China, August 2004, 501-502.
[5] Ye, D., and Ohta, A. (2003). A generalized method of notch stress / strain analysis and its extension to cyclic loading. Proceeding of 9th international conference on the Mechanical behavior of Materials at Geneva, Switzerland, May 11-14, 2003 (CD).
[6] Ye, D., Ohta, A., Meada, Y. and Suzuki, N. (2003). Measurement of multi-axial elastoplastic strain for SUS304-HP notch specimen under cyclic loading. Proceeding of 9th international conference on the Mechanical behavior of Materials at Geneva, Switzerland, May 2003 (CD).
[7] Tung, X., Ye, D. and yao, L. (1999). Computational simulation of self-heat generation in cyclic loading process, Proceeding of 7th International Fatigue Conference at Beijing, China, October 1999, 699-703.
[8] Yao, L.,Tung, X. and Ye, D. (1999) Energy dissipation structure during fatigue process, Proceeding of 7th International Fatigue Conference at Beijing, China, October1999, 741- 745.
[9] Tung, X., Ye, D. and Yao, L. (1998). Experimental observation of heat generation rules of metallic material under monotonic and cyclic loading, Proceeding of Low-Cyclic Fatigue and Elasto-Plastic Behaviour of material at Amsterdam, Holand, May 1998:665-670.