• 姓名: 王云江
  • 性别: 男
  • 职称: 副研究员
  • 学历: 博士
  • 电话: 010-82543931
  • 传真: 010-82543977
  • 电子邮件: yjwang@imech.ac.cn
  • 通讯地址 北京市北四环西路15号,中国科学院力学研究所,非线性力学国家重点实验室

    简历:

  • 工作经历 

    2014/01 – 至今,      中国科学院力学研究所,副研究员 

    2013/01 – 2013/12,京都大学,特定助理教授 

    2010/10 – 2012/12,大阪大学,JSPS外国人特别研究员

     

    教育经历 

    2005/09 – 2010/07,清华大学,物理系,博士 

    2001/09 – 2005/07,河北师范大学,物理学院,学士

     

    招生情况:

    欢迎具有力学、物理、材料背景的同学报考研究生

    研究领域:

  • Multi-spatial-temporal simulations of the mechanics and physics of novel nano- and amorphous solids

    Conquering long timescale dynamics in materials processes

    Electronic- and atomic-level understanding of various mechanical properties of solids, e.g., creep, stress relaxation, dislocation nucleation and motion, diffusion, dynamical mechanical analysis, and other thermally-activated processes

    社会任职:

  • Membership of MRS, TMS

    Reviewers for Journal of Applied Physics, Scripta Materialia, Scientific Reports, Journal of Alloys and Compounds, EPL, Computational Materials Science, Thin Solid Film, Molecular Simulation, Solid State Communications, Materials Letters, Theoretical and Applied Mechanics Letters, Science China Technological Sciences, Chinese Physics B etc.


    获奖及荣誉:

  • JSPS Fellowship, 2010 

    中国科学院青年创新促进会会员,2017

    代表论著:

  • (# Equal contribution; * Corresponding Author)

    Linked to ResearchGate, GoogleScholar

     

    -2017-

     

    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. B 96, 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. B 96, 094103 (2017). [link]

     

    -2016-

     

    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. B 94, 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. B 94, 104110 (2016). [link]

     

    G. Aral*, Y. J. Wang, S. Ogata and Adri C. T. van Duin,

    Effects of oxidation on tensile deformation of iron nanowires: Insights from reactive molecular dynamics simulations,

    J. Appl. Phys. 120, 135104 (2016). [link]

     

    M. Zhang, Y. J. Wang and L. H. Dai*,

    Correlation between strain rate sensitivity and alpha relaxation of metallic glasses

    AIP Adv. 6, 075022 (2016). [link]

     

    N. Miyazaki, M. Wakeda*, Y. J. Wang and S. Ogata*,

    Prediction of pressure-promoted thermal rejuvenation in metallic glasses

    npj Comput. Mater. 2, 16013 (2016). [link]

     

    X. Huang, Z. Ling, Y. J. Wang and L. H. Dai*,

    Intrinsic structural defects on medium range in metallic glasses,

    Intermetallics 75, 36-41 (2016). [link]

     

    M. Zhang, Y. J. Wang and L. H. Dai*,

    Understanding the serrated flow and Johari-Goldstein relaxation of metallic glasses,

    J. Non-Crystalline Solids 444, 23 (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*, K. Tsuchiya and L. H. Dai*,

    Size-dependent plastic deformation and failure mechanisms of nanotwinned Ni3Al: insights from an atomistic cracking model,

    Mater. Sci. Eng. A 649, 449 (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]

     

    -2015-

     

    M. Q. Jiang*, M. Naderi, Y. J. Wang, M. Peterlechner, X. F. Liu, F. Zeng, F. Jiang, L. H. Dai and G. Wilde,

    Thermal expansion accompanying the glass-liquid transition and crystallization,

    AIP Adv. 5, 127133 (2015). [link]

     

    Y. J. Wang*, S. Ogata* and L. H. Dai*,

    Universal enthalpy-entropy compensation rule in the deformation of metallic glasses,

    Phys. Rev. B 92,174118 (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 La60Ni15Al25 bulk metallic glass,

    Acta Mater. 98, 43 (2015). [link]

     

    M. Zhang, Y. J. Wang and L. H. Dai*,

    Bridging shear transformation zone to the atomic structure of amorphous solids,

    J. Non-Crystalline Solids 410, 100 (2015). [link]

     

    -2013-

     

    Y. J. Wang*, G. J. Gao and S. Ogata*,

    Atomistic understanding of diffusion kinetics in nanocrystals from molecular dynamics simulations,

    Phys. Rev. B 88, 115413 (2013). [link

     

    S. Yamamoto, Y. J. Wang*, A. Ishii and S. Ogata*,

    Atomistic design of high strength crystalline-amorphous nanocomposites,

    Mater. Trans. 54, 1592 (2013). [link]

     

    G. J. Gao*, Y. J. Wang and S. Ogata,

    Studying the elastic properties of nanocrystalline copper using a model of randomly packed uniform grains,

    Comput. Mater. Sci. 79, 56 (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]

     

    -2012-

     

    Y. J. Wang*, A. Ishii and S. Ogata*,

    Grain size dependence of creep in nanocrystalline copper by molecular dynamics,

    Mater. Trans. 53, 156-160 (2012). [link]

     

    -2011-

     

    Y. J. Wang*, A. Ishii and S. Ogata*,

    Transition of creep mechanism in nanocrystalline metals,

    Phys. Rev. B 84, 224102 (2011). [link]

    (Figure was featured as a PRB Kaleidoscope at http://prb.aps.org/kaleidoscope/prb/84/22/224102)

     

    Y. J. Wang, C. Y. Wang and S. Y. Wang*,

    CO adsorption on small Au_n (n=1-7) clusters supported on a reduced rutile TiO2(110) surface: a first-principles study,

    Chin. Phys. B 20, 036801 (2011). [link]

     

    -2009-

     

    Y. J. Wang* and C. Y. Wang,

    A comparison of the ideal strength between L12 Co3(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 gamma'-Ni3Al,

    Scr. Mater. 61, 179-200 (2009). [link]

     

    Y. J. Wang* and C. Y. Wang,

    Influence of the alloying elements on the elastic properties of the ternary and quaternary Nickel-base superalloys,

    Philos. Mag. 89, 2935-2947 (2009). [link]

     

    Y. J. Wang* and C. Y. Wang,

    First-principles calculations for the elastic properties of Ni-base model superalloys: Ni/Ni3Al multilayers,

    Chin. Phys. B 18, 4339-4348 (2009). [link]

     

    Y. J. Wang and C. Y. Wang,

    Effect of alloying elements on the elastic properties of gamma-Ni and gamma'-Ni3Al from first-principles calculations,

    MRS Proceedings 1224, 1224-FF05-31 (2009). [link]

     

    Y. J. Wang* and C. Y. Wang,

    Mechanical properties and electronic structure of superhard diamondlike BC5: a first-principles study,

    J. Appl. Phys. 106, 043513 (2009). [link]

     

    J. Wang and Y. J. Wang*,

    Mechanical and electronic properties of 5d transition metal diborides MB2 (M=Re, W, Os, Ru),

    J. Appl. Phys. 105, 083539 (2009). [link]

     

    -2008-

     

    Y. J. Wang* and C. Y. Wang,

    A first-principles survey of the partitioning behaviors of alloying elements on gamma/gamma' interface,

    J. Appl. Phys. 104, 013109 (2008). [link]

     

    Y. J. Wang* and C. Y. Wang,

    The alloying mechanisms of Re, Ru in the quaternary Ni-based superalloys gamma/gamma' interface: a first principles calculation,

    Mater. Sci. Eng. A 490 (2008) 242-249. [link]

    承担科研项目情况:

  • -主持项目-

    ·        国家自然科学基金面上项目,2017-2020;金属玻璃应力松弛与蠕变多级动力学跨时间尺度计算机模拟

    ·        国家自然科学基金青年科学基金,2015-2017;非晶/纳米晶复合材料原子尺度塑性机制

    ·        中国科学院青年创新促进会会员人才专项经费,2017-2020

    ·        中科院力学所特聘副研启动经费,2014-2016;非晶复合材料微观变形机理研究

    -参与项目-

    ·        国家重点研发计划材料基因工程关键技术与支撑平台重点专项,2017-2020;高通量并发式材料计算算法和软件;任务负责人,研究骨干。

    ·        国家重点研发计划材料基因工程关键技术与支撑平台重点专项,2017-2020;多场耦合条件下金属结构材料损伤演化行为的跨尺度关联评价;研究骨干。

    ·        中国科学院超常环境下系统力学问题研究与验证先导专项(B类)项目,2016-2020;研究骨干。