王云江 研究员、博士生导师
中国科学院力学研究所 超常环境非线性力学全国重点实验室
中国科学院大学工程科学学院 岗位教授
电子邮件:yjwang@imech.ac.cn
电      话:010-82543408
通信地址:北京市海淀区北四环西路15号
邮政编码:100190

概况

王云江,中科院力学所研究员、博士生导师,国科大岗位教授。2005年于河北师范大学获学士学位,2010年于清华大学获博士学位。2010至2013年,先后任大阪大学研究员、京都大学助理教授。2014年开始在非线性力学国家重点实验室工作,从事材料物理与固体力学交叉的多尺度模拟研究,兴趣包括非晶态物理与力学、纳米力学、跨尺度算法与应用、材料基因工程与机器学习等。发表论文百余篇,包括物理类Phys. Rev. Lett. (3), Phys. Rev. B/E/Mater./Res. (21)APL (3), Sci. Adv., JPCL;力学类JMPS (2), IJP (10);材料类Acta Mater. (11), Scr. Mater. (6), npj Comput. Mater., Nano Lett. 等, 被引2700余次,h-index = 32。主持或参与自然科学基金、国家重点研发计划、中科院战略性先导等项目。2010年获日本学术振兴会 (JSPS) 奖学金,2017年入选中国科学院青年创新促进会会员、2021获评优秀会员。担任《计算力学学报》、《Materials Research Letters》、《Journal of Applied Physics》、《Frontiers in Materials》等期刊编委或客座编辑。


简历    

  • 2018/11 –  至今          中国科学院力学研究所,研究员、博士生导师
  • 2014/01 – 2018/10     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
  • 2005/09 – 2010/07    清华大学,博士
  • 2001/09 – 2005/07    河北师范大学,学士

  研究领域    

  • 计算材料学  分子动力学、跨时间尺度算法与应用、增强采样与自由能计算;第一性原理与电子结构;蒙特卡洛、动力学蒙特卡洛;材料基因工程与机器学习等。
  • 物理力学  跨尺度力学;固体变形物理与力学;新金属材料力学与强韧化;材料构效关系;弹塑性本构等。
  • 材料物理  玻璃物理与玻璃转变,复杂物质动力学固体缺陷,弹塑性变形,位错形核与运动、扩散;材料热力学与动力学,晶格动力学;热激活理论;蠕变、应力松弛,内耗,相变等。



研究团队GDP (Group of Deformation Physics)

  1. 博士生:赵坤、戴仕诚、陶佳乐、曹琳莉
  2. 硕士生:熊浩智、黄隆州、雷挺

  • 左起:熊浩智 戴仕诚 赵坤 杨增宇 陶佳乐 王云江 曹琳莉 王晓实

桃李芬芳

  • 2017 – 田智立 博士 航天三院
  • 2018 – 杨   杰 硕士 中国工商银行
  • 2019 – 魏   丹 博士 大阪大学
  • 2019 – 韩   懂 硕士 田纳西大学研究生 
  • 2019 – 杨奕博 本科 (国科大) 芝加哥大学研究生
  • 2021 – 梁伦伟 博士 三一重工
  • 2021 – 王一舟 硕士 比亚迪
  • 2022 – 彭正瀚 本科 (四川大学) 斯坦福大学研究生
  • 2022 – 吕国建 博士后 西北工业大学
  • 2023 – 王晓实 博士 比亚迪
  • 2023 – 杨增宇 博士 工程物理研究院
  • 2023 – 刘淑兰 访问学者 唐山学院

招生招聘信息

  • 招收具有力学/物理/材料背景的研究生,1-2名/年;

  • 欢迎国内外优秀博士生联系博士后、特别研究助理合作研究事宜。


招生专业

  • 固体力学

奖励

  • 2023 Acta Materialia, Scripta Materialia Outstanding Reviewer Award
  • 2023 IOP (Model. Simul. Mater. Sci. Eng.) Outstanding Reviewer Award
  • 2021 中国科学院青年创新促进会优秀会员
  • 2017 中国科学院青年创新促进会会员
  • 2010 日本学术振兴会(JSPS)研究员奖学金

发表论文

Linked to Google ScholarResearchgateWoSOrcid


– 2024 –


Y. J. Duan, M. Nabahat, Y. Tong, L. Ortiz-Membrado, E. Jiménez-Piqué, K. Zhao, Y. J. Wang, Y. Yang, T. Wada, H. Kato, J. M. Pelletier, J. C. Qiao, and E. Pineda
Connection between Mechanical Relaxation and Equilibration Kinetics in a High-Entropy Metallic Glass
Phys. Rev. Lett. 132, 056101 (2024).


S. C. Dai, Y. Yang, and Y. J. Wang
Role of chemical disorder in slowing down diffusion in complex concentrated alloys
Phys. Rev. Mater. 8, 033607 (2024).


L. L. Cao and Y. J. Wang
Dynamics–Entropy Relationship in Metallic Glasses
J. Phys. Chem. Lett. 15, 811 (2024).


Q. Hao, G. J. Lyu, E. Pineda, J. M. Pelletier, Y. J. Wang, Y. Yang, J. C. Qiao
Deciphering non-elastic deformation in amorphous alloy: Simultaneous aging-induced ordering and rejuvenation-induced disordering
Int. J. Plast. 175, 103926 (2024).


L. T. Zhang, Y. J. Wang, M. Nabahat, E. Pineda, Y. Yang, J. M. Pelletier, D. Crespo, J. C. Qiao
Creep Deformation in Metallic Glasses: A Global Approach with Strain as an Indicator within Transition State Theory
Int. J. Plast. 174, 103923 (2024).


F. Zhu, G.H. Xing, Y. J. Wang, E. Pineda, and J.C. Qiao
Quantifying contribution of hierarchically correlated shear microdomains underlying creep in metallic glass
Int. J. Plast. 174, 103900 (2024).


X. Gao, S. C. Dai, Y. Teng, Q. Wang, Z. B. Zhang, Z. Y. Yang, M. Park, H. Wang, Z. Jia, Y. J. Wang, and Y. Yang
Ultra-Efficient and Cost-Effective Platinum Nanomembrane Electrocatalyst for Sustainable Hydrogen Production
Nano-Micro Lett. 16, 108 (2024).


H. L. Zhuang, Z. Z. Yu, L. Li, Y. J. Wang, and L, K. Béland
Multi-principal element materials: Structure, property, and processing
J. Appl. Phys. 135, 010401 (2024).


P. Y. Cao, J. Wang, P. Jiang, Y. J. Wang, F. P. Yuan, and X. L. Wu
Prediction of chemical short-range order in high-/medium-entropy alloys
J. Mater. Sci. Technol. 169, 115 (2024).


S. Y. Liang, L. T. Zhang, B. Wang, Y. J. Wang, E. Pineda, and J. C. Qiao, 
Structural rejuvenation and relaxation of a metallic glass under the periodically thermal-mechanical loading
Intermetallics 164, 108115 (2024).


– 2023 –


X. S. Wang and Y. J. Wang
Phonon instability of a multi-principal element alloy
Phys. Rev. B 107, 184116 (2023).


P. A. Santos-Florez, S. C. Dai, Y. Yao, H. Yanxon, L. Li, Y. J. Wang, Qiang Zhu, and X. X. Yu
Short-range order and its impacts on the BCC MoNbTaW multi-principal element alloy by the machine-learning potential
Acta Mater. 255, 119041 (2023).


J. L. Tao, Z. Y. Yang, and Y. J. Wang
Structural rationale for boson peak in metallic glass informed by an interpretable neural network model
Phys. Rev. Res. 5, 023113 (2023).


K. Zhao, Y. J. Wang, and P. H. Cao
Fracture universality in amorphous nanowires
J. Mech. Phys. Solids 173, 105210 (2023). 


X. S. Wang and Y. J. Wang
Disorder-order transition in multiprincipal element alloy: A free energy perspective
Phys. Rev. Mater. 7, 033606 (2023).


Z. Y. Zhou, Y. Sun, L. Gao, Y. J. Wang, H. B.Yu
Fundamental links between shear transformation, β relaxation, and string-like motion in metallic glasses
Acta Mater. 246, 118701 (2023).


L. Qian, W. Q. Yang, J. S. Luo, Y. J. Wang, K. C. Chan, and X. S. Yang
Amorphous Thickness-Dependent Strengthening–Softening Transition in Crystalline–Amorphous Nanocomposites
Nano Lett. 23, 11288 (2023).


Y. J. Bai, Y. D. Li, Y. J. Wang, K. Zhang, Q. Y. Jiang, Z. S. Liu, Z. Hu, and B. C. Wei
Wavy interface enables extra strengthening in an additively manufactured high-entropy alloy with Mortise-Tenon architecture
Int. J. Plast. 170, 103777 (2023).


Q. Hao, E. Pineda, Y. J. Wang, Y. Yang and J. C. Qiao
Reversible anelastic deformation mediated by β relaxation and resulting two-step deformation in a La60Ni15Al25 metallic glass
Phys. Rev. B 108, 024101 (2023).


F. Zhu, G.H. Xing, G.J. Lyu, L.T. Zhang, Y. J. Wang, Y. Yang, J.M. Pelletier, J.C. Qiao
Physics-motivated fractional viscoelasticity model for dynamic relaxation in amorphous solids
Int. J. Plast. 164, 103588 (2023).


L. T. Zhang, Y. J. Wang, Y. Yang, J. C. Qiao
Training β relaxation to rejuvenate metallic glasses
J. Mater. Sci. Technol. 158, 53 (2023).


Y. J. Bai, G. J. Lyu, Y. J. Wang, T. Y. Chen, K. Zhang, and B. C. Wei
Laser shock peening strengthens additively manufactured high-entropy alloy through novel surface grain rotation
Mater. Sci. Eng. A 871, 144886 (2023).


L. Y. Li, G. J. Lyu, H. Z. Li, C. T. Fan, W. X. Wen, H. J. Lin, B. Huang, S. Sohrabi, S. Ren, X. Liang, Y. J. Wang, J. Ma, and W. H. Wang
Ultra-fast amorphization of crystalline alloys by ultrasonic vibrations
J. Mater. Sci. Technol. 142, 76 (2023).


L. W. Liang, S. C. Dai, Y. Chen, H. Y. Wang, Y. J. Wang and L. H. Dai
Emergent failure transition of pearlitic steel at extremely high strain rates
Comput. Mater. Sci. 219, 112005 (2023).


J. Duan, Y. J. Wang, L. H. Dai, and M. Q. Jiang
Elastic interactions of plastic events in strained amorphous solids before yield
Phys. Rev. Materials 7, 013601 (2023).


S. Shuang, G. J. Lyu, D. Chung, X. Z. Wang, X. Gao, H. H. Mao, W. P. Li, Q. F. He, B. S. Guo, X. Y. Zhong, Y. J. Wang, and Y. Yang
Unusually high corrosion resistance in MoxCrNiCo medium entropy alloy enhanced by acidity in aqueous solution
J. Mater. Sci. Technol. 139, 59 (2023).


L. T. Zhang, Y. J. Duan, Y. J. Wang, Y. Yang, and J. C. Qiao
Tailoring mechanical properties of bulk metallic glasses via modulating cooling from supercooled liquid
Sci. China Technol. Sci. 66, 173 (2023).


– 2022 –


Y. J. Duan, L. T. Zhang, J. C. Qiao, Y. J. Wang, Y. Yang, T. Wada, H. Kato, J. M. Pelletier, E. Pineda, and D. Crespo
Intrinsic Correlation between the Fraction of Liquidlike Zones and the β Relaxation in High-Entropy Metallic Glasses
Phys. Rev. Lett. 129, 175501 (2022). (Editors' Suggestion)


Y. J. Bai, K. Zhang, T. Y. Chen, Z. S. Liu, Y. J. Wang, B. C. Wei
Alterable tension-compression asymmetry in work hardening of an additively manufactured dual-phase high-entropy alloy
Int. J. Plast. 158, 103432 (2022).


L. T. Zhang, Y. J. Wang, Y. Yang, and J. C. Qiao
Aging and rejuvenation during high-temperature deformation in a metallic glass
Sci. China-Phys. Mech. Astron. 65, 106111 (2022).

Y. L. Guan, Y. J. Wang, and W. D. Song
Modulating mechanical performances of metallic amorphous materials through phase gradient
Int. J. Mech. Sci. 234, 107680 (2022).


L. T. Zhang, Y. J. Wang, E. Pineda, Y. Yang, and J. C. Qiao
Achieving structural rejuvenation in metallic glass by modulating β relaxation intensity via easy-to-operate mechanical cycling
Int. J. Plast. 157, 103402 (2022).


Z. Y. Yang, Y. J. Wang, and L. H. Dai
Hidden spatiotemporal sequence in transition to shear band in amorphous solids
Phys. Rev. Research 4, 023220 (2022).


X. J. Wang, Y. Z. Lu, X. Lu, J. T. Huo, Y. J. Wang, W. H. Wang, L. H. Dai, and M. Q. Jiang
Elastic criterion for shear-banding instability in amorphous solids
Phys. Rev. E 105, 045003 (2022).


Z. Y. Yang and Y. J. Wang
Ergodic structural diversity predicts dynamics in amorphous materials
Front. Mater. (2022).


L. T. Zhang, Y. J. Wang, E. Pineda, H. Kato, Y. Yang, and J. C.Qiao
Sluggish dynamics of homogeneous flow in high-entropy metallic glasses
Scr. Mater. 214, 114673 (2022). 


Q. Hao, G. J. Lyu, E. Pineda, J. M. Pelletier, Y. J. Wang, Y. Yang, and J. C. Qiao
A hierarchically correlated flow defect model for metallic glass: Universal understanding of stress relaxation and creep
Int. J. Plast. 154, 103288 (2022).


Z. Y. Yang and Y. J. Wang
Correlation between vibrational anomalies and emergent anharmonicity of the local potential energy landscape in metallic glasses
Phys. Rev. B 105, 014204 (2022).


Y. Z. Wang and Y. J. Wang
Disentangling diffusion heterogeneity in high-entropy alloys
Acta Mater. 224, 117527 (2022).


S. C. Dai, Z. C. Xie, and Y. J. Wang
Atomistic interpretation of extra temperature and strain-rate sensitivity of heterogeneous dislocation nucleation in a multi-principal-element alloy
Int. J. Plast. 149, 103155 (2022). 


Y. L. Guan, W. D. Song, Y. J. Wang, S. S. Liu, and Y. J. Yua
Dynamic responses in shocked Cu-Zr nanoglasses with gradient microstructure
Int. J. Plast. 149, 103154 (2022). 


– 2021 –


Y. J. Wang
An overview of molecular dynamics simulations of plasticity in solids at experimentally relevant timescales
Chinese J. Comput. Mech. 38, 280 (2021).


Z. Y. Yang, D. Wei, A. Zaccone, and Y. J. Wang
Machine-learning integrated glassy defect from an intricate configurational-thermodynamic-dynamic space
Phys. Rev. B 104, 064108 (2021).


G. J. Lyu, J. C. Qiao, Y. Yao, Y. J. Wang, J. Morthomas, C. Fusco, and D. Rodney
Microstructural effects on the dynamical relaxation of glasses and glass composites: A molecular dynamics study
Acta Mater. 220, 117293 (2021).


Z. H. Peng, Z. Y. Yang, and Y. J. Wang
Machine learning atomic-scale stiffness in metallic glass
Extreme Mech. Lett. 48, 101446 (2021).


Y. J. Duan, J. C. Qiao, T. Wada, H. Kato, E. Pineda, D. Crespo, and Y. J. Wang
Stress relaxation in high-entropy Pd20Pt20Cu20Ni20P20 metallic glass: Experiments, modeling and theory
Mech. Mater. 160, 103959 (2021).


E. L. Yue, T. Yu, Y. J. Wang, and C. Y. Wang
Synergistic strengthening mechanisms of rhenium in nickel-based single crystal superalloys
Intermetallics 132, 107133 (2021).


X. S. Yang, S. Q. Yuan, H. Fu, and Y. J. Wang
Grain boundary-mediated plasticity accommodating the cracking process in nanograined gold: In situ observations and simulations
Scr. Mater. 194, 113693 (2021).


Y. J. Duan, J. C. Qiao, T. Wada, H. Kato, Y. J. Wang, E. Pineda, D. Crespo
Inelastic deformation of metallic glasses under dynamic cyclic loading
Scr. Mater. 194, 113675 (2021).


L. T. Zhang, Y. J. Duan, D. Crespo, E. Pineda, Y. J. Wang, J. M. Pelletier, and J. C. Qiao
Dynamic mechanical relaxation and thermal creep of high-entropy La30Ce30Ni10Al20Co10 bulk metallic glass
Sci. China-Phys. Mech. Astron. 64, 296111 (2021).

Z. C. Xie, Y. J. Wang, C. S. Lu, and L. H. Dai
Sluggish hydrogen diffusion and hydrogen decreasing stacking fault energy in a high-entropy alloy
Mater. Today Commun. 26, 101902 (2021).
 
– 2020 –

Y. B. Yang, Q. Yang, D. Wei, L. H. Dai, H. B. Yu, and Y. J. Wang
Unraveling strongly entropic effect on β-relaxation in metallic glass: Insights from enhanced atomistic samplings over experimentally relevant timescales
Phys. Rev. B 102, 174103 (2020).
 

Y. J. Wang, D. Wei, D. Han, J. Yang, M. Q. Jiang, and L. H. Dai
Does structure determine property in amorphous solids?
Chinese J. Theor. Appl. Mech. 52, 303 (2020).

 
F. H. Cao, Y. J. Wang, and L. H. Dai
Novel atomic-scale mechanism of incipient plasticity in a chemically complex CrCoNi medium-entropy alloy associated with inhomogeneity in local chemical environment
Acta Mater. 194, 283-294 (2020).
 
D. Han, D. Wei, P. H. Cao, Y. J. Wang, and L. H. Dai
Statistical complexity of potential energy landscape as a dynamic signature of the glass transition
Phys. Rev. B 101, 064205 (2020).
 
D. Han, D. Wei, J. Yang, H. L. Li, M. Q. Jiang, Y. J. Wang, L. H. Dai, and A. Zaccone
Atomistic structural mechanism for the glass transition: Entropic contribution
Phys. Rev. B 101, 014113 (2020).
 
L. W. Liang, Y. J. Wang, Y. Chen, H. Y. Wang, and L. H. Dai
Dislocation nucleation and evolution at the ferrite-cementite interface under cyclic loadings
Acta Mater. 186, 267-277 (2020).
 
X. Li, D. Wei, J. Y. Zhang, X. D. Liu, Z. Li, T. Y. Wang, Q.F. He, Y. J. Wang, J. Ma, W. H. Wang, Y. Yang
Ultrasonic plasticity of metallic glass near room temperature
Appl. Mater. Today 21, 100866 (2020).
 
X. F. Liu, Z. L. Tian, X. F. Zhang, H. H. Chen, T. W. Liu, Y. Chen, Y. J. Wang, and L. H. Dai
“Self-sharpening” tungsten high-entropy alloy
Acta Mater. 186, 257-266 (2020).
 
J. Yang, J. Duan, Y. J. Wang, and M. Q. Jiang
Complexity of plastic instability in amorphous solids: Insights from spatiotemporal evolution of vibrational modes
Eur. Phys. J. E 43, 56 (2020).
 
Z. R. Xu, D. S. Yang, J. C. Qiao, J. M. Pelletier, D. Crespo, E. Pineda and Y. J. Wang
Unified perspective on structural heterogeneity of a LaCe-based metallic glass from versatile dynamic stimuli
Intermetallics 125, 106922 (2020).
 
Y. H. Chen, Y. J. Wang, and J. C. Qiao
Stress relaxation of La30Ce30Al15Co25 metallic glass
Chinese J. Theor. Appl. Mech. 52, 740 (2020).
 
– 2019 –
 
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).
 
J. Ma, C. Yang, X. D. Liu, B. S. Shang, Q. F. He, F. C. Li, T. Y. Wang, D. Wei, X. Liang, X. Y. Wu, Y. J. Wang, F. Gong, P. F. Guan, W. H. Wang, and Y. Yang
Fast surface dynamics enabled cold joining of metallic glasses
Sci. Adv. 5, eaax7256 (2019).
 
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). (Figure was featured as a PRB Kaleidoscope)
 
D. Wei, J. Yang, M. Q. Jiang, L. H. Dai, Y. J. Wang, J. Dyre, I. Douglass, and Peter Harrowell
Assessing the Utility of Structure in Amorphous Materials
J. Chem. Phys. 150, 114502 (2019).
 
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).
 
Y. Liu, S. L. Cai, M. Y. Su, Y. J. Wang, and L. H. Dai
Hierarchical-microstructure based modeling for plastic deformation of partial recrystallized copper
Mech. Mater. 139, 103207 (2019).
 
L. W. Liang, L. Xiang, Y. J. Wang, Y. Chen, H. Y. Wang, and L. H. Dai
Ratchetting in cold-drawn pearlitic steel wires
Metall. Mater. Trans. A 50, 4561 (2019).
 
L. Xiang, L. W. Liang, Y. J. Wang, Y. Chen, H. Y. Wang, and L. H. Dai
One-step annealing optimizes strength-ductility tradeoff in pearlitic steel wires
Mater. Sci. Eng. A 757, 1-13 (2019).
 
G. Aral, M. M. Islam, Y. J. Wang, S. Ogata, and A. C. T. van Duin
Atomistic insights on the influence of pre-oxide shell layer and size on the compressive mechanical properties of nickel nanowires
J. Appl. Phys. 125, 165102 (2019).
 
G.-J. J. Gao, Y. J. Wang, and S. Ogata
Incorporating a soft ordered phase into an amorphous configuration enhances its uniform plastic deformation under shear
AIP Adv. 9, 015329 (2019).
 
Y. Liu, S. L. Cai, F. G. Xu, Y. J. Wang, and L. D. Dai
Enhancing strength without compromising ductility in copper by combining extrusion machining and heat treatment
J. Mater. Process. Technol. 267, 52 (2019).
 
– 2018 –
 
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).
 
G. Aral, M. M. Islam, Y. J. Wang, S. Ogata, and A. C. T. van Duin
Oxyhydroxide of metallic nanowires in a molecular H2O and H2O2 environment and their effects on mechanical properties
Phys. Chem. Chem. Phys. 20, 17289 (2018).

  
– 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).

 
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).
 
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).
 
– 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).
 
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).
 
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).
 
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).
 
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).
 
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).
 
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).
 
M. Zhang, Y. J. Wang, and L. H. Dai
Correlation between strain rate sensitivity and α relaxation of metallic glasses
AIP Adv. 6, 075022 (2016).
 
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).
 
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).
 
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).
 
– 2015 –
  
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).
 
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).


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).
 
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).
 
– 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).


Y. J. Wang, A. Ishii, and S. Ogata
Entropic effect on creep in nanocrystalline metals
Acta Mater. 61, 3866 (2013).
 
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).
 
S. Yamamoto, Y. J. Wang, A. Ishii, and S. Ogata
Atomistic design of high strength crystalline-amorphous nanocomposites
Mater. Trans. 54, 1592 (2013).
 
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).
 
– 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).
 
– 2011 –


Y. J. Wang, A. Ishii, and S. Ogata
Transition of creep mechanism in nanocrystalline metals
Phys. Rev. B 84, 224102 (2011). (Figure was featured as a PRB Kaleidoscope)
 
Y. J. Wang, C. Y. Wang, and S. Y. Wang
CO adsorption on small Aun (n = 1-7) clusters supported on a reduced rutile TiO2(110) surface: a first-principles study
Chin. Phys. B 20, 036801 (2011).
 
– 2009 –
 
Y. J. Wang and C. Y. Wang
A comparison of the ideal strength between L1Co3(Al,W) and Ni3Al under tension and shear from first-principles calculations
Appl. Phys. Lett. 94, 261909 (2009).
 
Y. J. Wang and C. Y. Wang
Influence of the alloying element Re on the ideal tensile and shear strength of γ'-Ni3Al
Scr. Mater. 61, 179-200 (2009).
 
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).
 
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).
 
Y. J. Wang and C. Y. Wang
Effect of alloying elements on the elastic properties of γ-Ni and γ'-Ni3Al from first-principles calculations
MRS Proceedings 1224, 1224-FF05-31 (2009).
 
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).
 
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).
 
– 2008 –
 
Y. J. Wang and C. Y. Wang
A first-principles survey of the partitioning behaviors of alloying elements on γ/γ' interface
J. Appl. Phys. 104, 013109 (2008).
 
Y. J. Wang and C. Y. Wang
The alloying mechanisms of Re, Ru in the quaternary Ni-based superalloys γ/γ' interface: a first principles calculation
Mater. Sci. Eng. A 490, 242-249 (2008).

科研项目

主持项目

  • 20222024 中国科学院青年创新促进会优秀会员人才专项经费
  • 20212024 国家自然科学基金面上项目,新型无序固体塑性变形微观机制的熵效应
  • 20172020 国家自然科学基金面上项目,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 
  • 20172020 国家重点研发计划子课题,高通量并发式材料计算算法和软件 
  • 20152017 国家自然科学基金青年科学基金,非晶/纳米晶复合材料原子尺度塑性机制 
  • 20172020 中国科学院青年创新促进会会员人才专项经费

参与项目  

  • 20232028 中国科学院B类先导专项, 极限晶粒金属的力学性能和使役性能以及电热输运性能研究, 参与 

  • 20172020 国家重点研发计划,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,项目秘书

  • 20172020 国家自然基金重大项目,无序合金塑性流动与强韧化机理;研究骨干 

  • 20162020 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,研究骨干

  • 20172021 中国科学院前沿科学重点研究项目,新型高强金属材料剪切带的涌现与调控;参与

国内外合作

具有广泛的国内外合作基础,与清华大学王崇愚院士、上海大学张统一院士、中科院物理所汪卫华院士、西北工大乔吉超教授、华中科技大学于海滨教授、香港城市大学杨勇教授、香港理工大学杨许生教授、中科院长春应化所徐文生研究员、深圳大学马将教授;大阪大学Shigenobu Ogata教授、米兰大学Alessio Zaccone教授、罗斯基洛大学Jeppe Dyre教授、美国国家标准与技术研究院Jack Douglas教授、悉尼大学Peter Harrowell教授、上海交大Matteo Baggioli教授等学者建立了密切合作关系。

社会兼职

  1. 编委:《计算力学学报》编委、《Materials Research Letters》青年编委、《Journal of Applied Physics》客座编辑、《Frontiers in Materials》评审编辑。

  2. 会员: Materials Research Society (MRS), The Minerals, Metals & Materials Society (TMS), American Physical Society (APS), The Chinese Society of Theoretical and Applied Mechanics (CSTAM) 

  3. 期刊审稿人: Nat. Phys., Phys. Rev. Lett., Phys. Rev. B/E/Materials, Nature Commun., PNAS, Acta/Scr. Mater., Adv. Mater., J. Phys. Chem. Lett., Mater. Toady Phys., J. Phys. Chem., Appl. Phys. Lett., APL Materials, J. Appl. Phys, Mater. Sci. Eng. A, MMTA, Sci. China, J Mater. Sci. Technol., etc.

教授课程

《现代计算力学导论》