王雲江,中國科學院力學研究所研究員、博士生導師。1981年生,2005年於河北師範大學獲學士學位;2010年於清華大學獲博士學位,師從王崇愚院士。2010至2013年,先後任大阪大學JSPS特別研究員、京都大學特定助理教授。2014年任職中國科學院力學研究所非線性力學國家重點實驗室副研究員,2018年晉升為研究員。主要從事金屬結構材料物理與力學交叉的多時空尺度計算機模擬工作,在納米晶體與非晶態物質變形物理、加速分子動力學、高溫合金力學性能等領域開展研究工作。
基本信息
工作經歷
教育經歷
代表論著
- D. Wei, J. Yang, M. Q. Jiang, B. C. Wei,Y. J. Wang*and L. H. Dai*,Revisiting the structure–property relationships of metallic glasses: Common spatial correlation revealed as a hidden rule,Phys. Rev. B 99,014115 (2019). (Featured as PRB Kaleidoscope athttps://journals.aps.org/prb/kaleidoscope/prb/99/1/014115) [link]
- J. Yang,Y. J. Wang*, A. Zaccone, E. Ma, L. H. Dai and M. Q. Jiang*,Structural Parameter of Orientational Order to Predict the Boson Vibrational Anomaly in Glasses,Phys. Rev. Lett.122,015501 (2019). [link]
- Z. Y. Yang,Y. J. Wang* and L. H. Dai*, Susceptibility of shear banding to chemical short-range order in metallic glasses,Scr. Mater. 162, 141 (2019). [link]
- Y. J. Wang*, J. P. Du, S. Shinzato, L. H. Dai* and S. Ogata*, A free energy landscape perspective on the nature of collective diffusion in amorphous solids,Acta Mater. 157, 165 (2018). [link]
- M. Q. Jiang*, M. Peterlechner,Y. J. Wang, W. H. Wang, F. Jiang, L. H. Dai and G. Wilde, Universal structural softening in metallic glasses indicated by boson heat capacity peak,Appl. Phys. Lett. 111, 261901 (2017). [link]
- B. Y. Cui, J. Yang, J. C. Qiao, M. Q. Jiang, L. H. Dai,Y. J. Wang*and A. Zaccone*, Atomic theory of viscoelastic response and memory effects in metallic glass,Phys. Rev. B96, 094203 (2017). [link]
- Z. L. Tian,Y. J. Wang, Y. Chen and L. H. Dai*, Strain gradient drives shear banding in metallic glass,Phys. Rev. B96, 094103 (2017). [link]
- J. C. Qiao,Y. J. Wang*, L. Z. Zhao, L. H. Dai, D. Crespo, J. M. Pelletier, L. M. Keer and Y. Yao*, Transition from stress-driven to thermally activated stress relaxation in metallic glasses,Phys. Rev. B94, 104203 (2016). [link]
- J. P. Du,Y. J. Wang*, Y. C. Lo, L. Wan and S. Ogata*, Mechanism transition and strong temperature dependence of dislocation nucleation from grain boundaries: An accelerated molecular dynamics study,Phys. Rev. B94, 104110 (2016).[link]
- N. Miyazaki, M. Wakeda*,Y. J. Wangand S. Ogata*, Prediction of pressure-promoted thermal rejuvenation in metallic glasses,npj Comput. Mater. 2,16013 (2016). [link]
- X. S. Yang#,Y. J. Wang#, H. R. Zhai, G. Y. Wang, Y. J. Su, L. H. Dai, S. Ogata and T. Y. Zhang*, Time-, stress-, and temperature-dependent deformation in nanostructured copper: Creep tests and simulations,J. Mech. Phys. Solids 94, 191-206 (2016). [link]
- X. S. Yang#,Y. J. Wang#, G. Y. Wang, H. R. Zhai, L. H. Dai and T. Y. Zhang*, Time, stress and temperature-dependent deformation in nanostructured copper: stress relaxation tests and simulations,Acta Mater. 108, 252-263 (2016). [link]
- Y. J. Wang*, M. Q. Jiang, Z. L. Tian and L. H. Dai*,Direct atomic-scale evidence for shear–dilatation correlation in metallic glasses,Scr. Mater.112, 37 (2016). [link]
- Y. J. Wang*, S. Ogata* and L. H. Dai*, Universal enthalpy-entropy compensation rule in the deformation of metallic glasses,Phys. Rev. B92,174118 (2015). [link]
- J. C. Qiao,Y. J. Wang, J. M. Pelletier, Leon M. Keer, Morris E. Fine and Y. Yao*,Characteristics of stress relaxation kinetics of La60Ni15Al25bulk metallic glass,Acta Mater. 98, 43 (2015). [link]
- Y. J. Wang*, G. J. Gao and S. Ogata*,Atomistic understanding of diffusion kinetics in nanocrystals from molecular dynamics simulations,Phys. Rev. B88, 115413 (2013).[link]
- Y. J. Wang*, A. Ishii and S. Ogata*,Entropic effect on creep in nanocrystalline metals,Acta Mater. 61, 3866(2013). [link]
- Y. J. Wang*, G. J. J. Gao and S. Ogata*, Size-dependent transition of deformation mechanism, and nonlinear elasticity in Ni3Al nanowires,Appl. Phys. Lett. 102,041902(2013).[link]
- Y. J. Wang*, A. Ishii and S. Ogata*,Transition of creep mechanism in nanocrystalline metals,Phys. Rev. B84, 224102 (2011). (Featured as PRB Kaleidoscope athttp://prb.aps.org/kaleidoscope/prb/84/22/224102) [link]
- Y. J. Wang*and C. Y. Wang, A comparison of the ideal strength between L12Co3(Al,W) and Ni3Al under tension and shear from first-principles calculations,Appl. Phys. Lett. 94, 261909 (2009). [link]
- Y. J. Wang*and C. Y. Wang, Influence of the alloying element Re on the ideal tensile and shear strength of-Ni3Al,Scr. Mater.61, 179-200 (2009). [link]