相册


基本信息 The basic information
姓名: 王毅

学院: 材料学院


学历: 博士研究生毕业

学位: 哲学博士


职称: 副教授

职务:


学科:





工作经历 Work Experience
2016年07月 ~ 至今， 西北工业大学 材料学院 准聘副教授 (博士生导师)

2014年01月~ 2016年05月，美国宾夕法尼亚州立大学 博士后




教育经历 Education Experience
2009年10月~ 2013年12月 美国宾夕法尼亚州立大学 博士
2009年10月~ 2012年12月 美国宾夕法尼亚州立大学 硕士

2006年09月~ 2009年09月 北京科技大学 硕士提前攻博，国家公派赴外攻读学位
2001年09月~ 2005年06月 河北理工大学 学士



科学研究 Scientific Research
主要研究方向为基于材料基因工程材料物性模块的先进材料的集成计算材料工程，具体包括(1) 材料结构与性能的第一原理和分子动力学研究
(2) 新型材料的固溶强化机理和热力学稳定性的研究
(3) 表面与界面对新型材料力学和电子结构的影响
(4) 基于数字孪生技术的智能制造

目前主持装备预研领域重点基金1项，“科学挑战专题”方向4国家级纵向课题1项，中车唐山机车车辆有限公司横向课题1项，新金属材料国家重点实验室开放课题1项；参加国家自然科学基金重点基金1项和国家重点研发计划材料基因工程关键技术与平台项目2项。





教育教学 Education And Teaching
本科课程 《Foundation of Materials Science and Engineering》
本科课程 《Fatigue and Creep Failure》



招生信息 Admission Information
本人招收有志于从事先进金属材料集成计算材料工程（ICME）和材料基因组工程（MGI/MGE）研究的博士和硕士研究生，欢迎同学们积极报考和加入（直博、硕博连读、推免等）



社会兼职 Social Appointments
2018年03月~至今， 矿物、金属与材料学会（TMS）合金与相图委员会（APC）委员
2019年01月~至今， 中国CSTM材料基因工程数据通则委员会-TC01委员

2012年10月~ 2013年10月, 美国材料研究学会宾夕法尼亚州立大学分会(PSUChapter)副主席
2010年10 月 智利FONDECYT项目评审专家
国际学术期刊审稿人：《NPJ Computational Materials》《Acta Materialia》《Journal of MaterialsScience & Technology》《Applied PhysicsLetters》《Journal of MaterialsScience》《Materials Chemistryand Physics》《Journal of Alloys andCompounds》《Journal of AppliedPhysics》《MaterialsCharacterization》, 《ComputationalMaterials Science》 《Physics Status SolidiB》《PhilosophicalMagazine》等。被《Acta Materialia》（2019）和《ComputationalMaterials Science》（2017和2015）评为“杰出评审人”。



学术成果 Academic Achievements
科技专著（章节）
1. B. C. Zhou, W. Y. Wang, Z. K. Liu, and R. Arroyave, Chapter 8 – Electronics to Phases of Magnesium, in: M. F. Horstemeyer Editor. Integrated Computational Materials Engineering (ICME) for Metals: Case Studies., John Wiley & Sons, 2018. pp.237-282. ( PDF ).
已发表论文
2021

82. W. Y. Wang*, Y. Zhang* and P. K. Liaw*, Editorial: Data-driven Integrated Computational Materials Engineering for High-entropy Materials. Frontier in Materials, 2021, (PDF)
81. C. X. Zou, J. S. Li *, W. Y. Wang *, Y. Zhang, X. D. Wang, B. Tang, J. Wang, D. Y. Lin, R. H. Yuan, H. C. Kou, X. D. Hui, X. Q. Zeng, Q. Ma, H. F. Song *, Z. K. Liu, and D. S. Xu, Integrating data mining and machine learning to discover the high-strength ductile Ti alloys. Acta Materialia. 2021, 202:211-221. (PDF)
80. C. X. Zou, J. S. Li *, L. Zhu, Y. Zhang, B. Tang *, J. Wang, H. C. Kou, H. F. Song, W. Y. Wang *, Electronic structures and properties of Ti₂AlNb/TiAl heterogeneous interfaces: A comprehensive first-principles study. Intermetallics, 2021, 107173. (PDF)

79. J. S. Li *, H. X. Yang, W. Y. Wang, H. C. Kou, and J. Wang *, Thermal-mechanical processing and strengthen in Al_xCoCrFeNihigh-entropy alloys. Frontier in Materials, 2021,7:585602. (PDF)

78. C. D. Zhao, J. S. Li *, Y. Liu, Y. Jin, W. Y. Wang *, H. C. Kou, J. Wang *, Optimizing mechanical and magnetic properties of AlCoCrFeNi high-entropy alloy via FCC to BCC phase transformation. Journal of Materials Science and Technology, 2021, 86:117-126.(PDF)

77. C. D. Zhao, J. S. Li *, Y. X. He, W. Y. Wang, H. C. Kou, J. Wang *, Tailoring mechanical and magnetic properties of AlCoCrFeNihigh-entropy alloy via phase transformation. Journal of Materials Science and Technology, 2021, 73: 83-90. (PDF)

76. H. X. Yang, J. S. Li *, X. Y. Pan, W. Y. Wang, H. C. Kou, and J. Wang*,Nanophase precipitation and strengthen in a dual-phase Al_0.5CoCrFeNi high-entropy alloy. Journal of Materials Science and Technology. 2021, 71:1-7. (PDF)



2020

75. W. Y. Wang^#, B Gan^#, D. Y Lin, J. Wang, Y. G. Wang, B. Tang, H. C. Kou, S. L. Shang, Y. Wang, X. Y. Gao, H. F. Song, X. D. Hui, L. J. Keckes, Z. H, Xia, P. K. Liaw, J. S. Li,* and Z. K. Liu, High-throughput investigations of configurational transition dominated serrations in CuZr/Cu nanolaminates. Journal of Materials Science and Technology, 2020, 53:192-199. (PDF)
74. W. Y. Wang, P. X. Li, D. Y. Lin, B. Tang, J. Wang, Q. M. Guan, Q. Ye, H. X. Dai, J. Gao, H. C. Kou, H. F. Song, F. Zhou *, J. J. Ma *, Z. K. Liu, J. S. Li* and W. M. Liu, DID Code – A bridge connecting materials genome engineering database and inheritable integrated intelligence manufacturing. Engineering, 2020, 6:612-620. (PDF)
73. W. Y. Wang^*, B Tang, D. Y Lin, C. X. Zou, Y. Zhang, S. L. Shang, Q. M. Guan, J. Gao, L. T. Fan, H. C. Kou, H. F. Song, J. J. Ma, X. D. Hui, M. Gao, Z. K. Liu, and J. S. Li, A brief review of data-driven ICME for intelligently discovering advanced structural metal materials: Insights into atomic and electronic building blocks. Journal of Materials Research. 2020, 35:872-889 (Invited Feature Paper for the Early Career Scholar in Materials Science 2020). (PDF)

72.J. Tang, X. Y. Xue , W. Y. Wang,* D. Y. Lin, T. Ahmed, J. Wang, B. Tang, S. L. Shang, I. V. Belova, H. F. Song, G. E. Murch, J. S. Li, and Z. K. Liu, Activation volume dominated diffusivity of Ni₅₀Al₅₀ melt under extreme conditions. Computational Materials Science. 2020, 171:109263. (PDF)

71. L. T. Fan, J. J. Ma *, C. X. Zou, J. Gao, H. S. Wang, J. Sun, Q. M. Guan, J. Wang, B. Tang, J. S. Li, and W. Y. Wang*, Revealing foundations of the intergranular corrosion of 5XXX and 6XXX Al alloys. Materials Letters. 2020, 271:127767.(PDF)
70. R. X. Li, L. Xie, W. Y. Wang, P. K. Liaw, and Y. Zhang, High-throughput calculations for high-entropy alloys: A brief review. Frontier in Materials. 2020, 7:290. (PDF)

69. Y. D. Wu, Q. J. Wang, D. Y. Lin, X. H. Chen, T. Wang, W. Y. Wang, Y. D. Wang, and X. D. Hui *, Phase stability and deformation behavior of TiZrHfNbO high-entropy alloys. Frontier in Materials 2020, 7:589052. (PDF)
68. B. Q. Yin, X. Y. Xue, B. Tang, W. Y. Wang, H. C. Kou, J. S. Li, Hot deformation behaviors of WE71 alloy under plain strain compression at elevated temperature, Progress in Natural Science: Materials International. 2020, 30:526-532. (PDF)
67. M. Q. Zhang, B. Tang *, R. M. Yang, W. Y. Wang, H. C. Kou, J. S. Li, Combined crystal plasticity simulations and experiments for parameter identification: application to near β titanium alloy. Journal of Materials Science. 2020, 55:15043-15055. (PDF)

66. H. X. Yang, J. S. Li*, T. Guo, W. Y. Wang, H. C. Kou and J. Wang*, Grain size effect on the evolution of the microstructure and hardness in a dual-phase Al0.5CoCrFeNi high-entropy alloy. Rare Metals, 2020, 39:156-161. (PDF)
65. C. D. Zhao, J. S. Li, Y. X. He, W. Y. Wang, H. C. Kou, J. Wang, Effect of strong magnetic field on the microstructure and mechanical-magnetic properties of AlCoCrFeNi high-entropy alloy. Journal of Alloys and Compounds, 2020, 820:153407.(PDF)

64. Y. J. Hu, Y. Wang, W. Y. Wang, K. A. Darling, L. J. Kecskes, and Z. K. Liu, Solute effects on the Σ3 (111)[1-10] tilt grain boundary in BCC Fe: Grain boundary segregation, stability, and embrittlement.. Computational Materials Science. 2020,171:109271. (PDF)
63. B. Tang,* W. Y. Wang, L. Zhu, H. C. Kou, and J. S. Li, Metadynamic recrystallization behavior of β-solidified TiAl alloy during post-annealing after hot deformation. Intermetallics, 2020, 117:106679. (PDF)



2019
62. W. Y. Wang, B. Tang, S. L. Shang, J. W. Wang, S. L. Li, Y. Wang, J. Zhu, S. Y. Wei, K. A. Darling, S. N. Mathaudhu, Y. G. Wang, Y. Ren, X. D. Hui, L. J. Kecskes*, J. S. Li* and Z. K. Liu*, Formation of stacking faults through local lattice distortion. Acta Materialia, 2019, 170:231-239. (PDF)

61. W. Y. Wang,* J. S. Li, W. M. Liu, and Z. K. Liu, lntegrated computational materials engineering for advanced materials: A brief review. Computational Materials Science, 2019, 158:42-48. (Rising Stars in Computational Materials Science 2019) (PDF)

60. W. Y. Wang,*C. X. Zou, D. Y. Lin, J. Tang, L. Zhang, J. Sun, Q. M. Guan, B. Tang, J. Wang, H. C. Kou, J. Gao, H. F. Song, J. J. Ma, and J. S. Li, Interstitial triggered grain boundary embrittlement of Al-X (X = H, N and O). Computational Materials Science, 2019, 163:241-247. (PDF)

59. Y. Zhang, J. S. Li, W. Y. Wang,* P. X. Li, B. Tang, J. Wang, H. C. Kou, S. L. Shang, Y. Wang, L. K. Keckes, X. D. Hui, Q. Feng,* and Z. K. Liu,* When defect is a pathway to improve stability: A case study of L1₂ Co₃TM superlattice intrinsic stacking fault, Journal of Materials Science, 2019, 54:13609-13618. （PDF）
58. Q. M. Guan, J. Sun, W. Y. Wang,* J. F. Gao, C. X. Zou, J. Wang, B. Tang, H. C. Kou, H. S. Wang, J. Y. Hou, J. Gao, J. J. Ma,* and J. S. Li,* Pitting corrosion of natural aged Al-Mg-Si extrusion profile. Materials. 2019, 12:1081. (PDF)

57. I. V. Belova*, U. Sarder, T. Ahmed, W. Y. Wang, R. Kozubski, Z. K. Liu, D. Holland-Moritz, A. Meyer, and G. E. Murch, . Computational and experimental investigation of the structure and thermodynamic factors in Ni-Al and Cu-Ag liquid alloys. Computaional Materials Science, 2019, 166:124-135. (PDF)

56. J. Zhu, L. Zhang, W. Ge, X. Fang, Q. Wu, J. Sun, G. Zhu, S. Zhu, X. Gao, W. Y. Wang, X. Wang,* X. D. Hui*, High strength Mg-Zn-Y alloys reinforced synergistically by Nano-SiCp and long period stacking ordered structure. Materials Science and Engineering A, 2019, 765:138284. (PDF)
55. L. Y. Li, J. S. Li, T. Guo, W. Y. Wang, H. C. Kou, J. Wang *, A new microcosmic coordinated deformation model of Ti-based bulk metallic composites during tensile deformation, Scripta Materialia, 2019, 172:23-27. (PDF)

54. H. Yang, J. S. Li*, T. Guo, W. Y. Wang, H. C. Kou and J. Wang*, Fully recrystallized Al0.5CoCrFeNi high-entropy alloy strengthened by nanoscale precipitates. Metals and Materials International, 2019. (PDF)

53. L. Li, J. S. Li, Y. He, W. Y. Wang, H. C. Kou and J. Wang*, Tensile properties and deformation micromechanisms of Ti-based metallic glass composite containing impurity elements. Journal of Alloys and Compounds, 2019, 784:220-230. (PDF)

52. U. Sarder, T. Ahmed, W. Y. Wang, R. Kozubski, Z. K. Liu, I. V. Belova*, G. E. Murch, Mass and thermal Transport in liquid Cu-Ag alloys. Philosophical Magazine, 2019, 99:468-491. (PDF)

51. B. Tang*, W. Y. Wang, L. Zhu, H. C. Kou and J. S. Li, Hot deformation study and interface characterization for TiAl/Ti₂AlNb diffusion bonds based on the serial constitutive model. Intermetallics, 2019, 104:66-73. (PDF)


2018
50. W. Y. Wang,* F. Xue, Y. Zhang, S. L. Shang, Y. Wang, K. A. Darling, L. J. Kecskes, J. S. Li, X. Hui, Q. Feng,* and Z. K. Liu,* Atomic and electronic basis for the solutes strengthened (010) anti-phase boundary of L1₂ Co₃(Al, TM) phase: A comprehensive first-principles study. Acta Materialia, 2018, 145:30-40. ( PDF ).
49. W. Y. Wang,* Y. Zhang, J. S. Li,* C. X. Zou, B. Tang, H. Wang, D. Y. Lin, J. Wang, H. C. Kou, and D. S. Xu, Insight into solid-solution strengthened bulk and stacking faults properties in Ti alloys: A comprehensive first-principles study. Journal of Materials Science (Cover Image), 2018, 53:7493-7505. ( PDF ).

48. Y. L. Wang, L. Y. Zhao, Y. Zhao, W. Y. Wang, Y. F. Liu, C. D. Gu, J. S. Li, G. G. Zhang, T. J. Huang,* and S. K. Yang,* Electrocarving during electrodeposition growth. Advanced Materials (Back Cover), 2018, 30:**. (PDF)
47. H. Y. Kim,* W. Y. Wang, S. L. Shang, L. J. Kecskes, K. A. Darling, and Z. K. Liu, Elastic Properties of Long Periodic Stacking Ordered Phases in Mg-Gd-Al Alloys: A First-Principles Study. Intermetallics, 2018,98:18-27. ( PDF )
46. T.Ahmed, W. Y. Wang, R. Kozubski, Z. K. Liu, I. V. Belova,* G. E Murch, Interdiffusion and thermotransport in Ni-Al liquid alloys. Philosophical Magazine, 2018,98: 2221-2246. ( PDF )
45. Y. L. Wang, Y. L. Kang, W. Y. Wang, Q. Q. Ding, J. G. Zhou, S. K. Yang,* Circumventing silver oxidation induced performance degradation of silver surface-enhanced Raman scattering substrates. Nanotechnology, 2018,29:414001. ( PDF )
44. C. X. Zou, J. S. Li,* W. Y. Wang,* Y. Zhang, B. Tang, H. Wang, D. Y. Lin, J. Wang, H. C. Kou, and D. S. Xu, Revealing the local lattice strains and strengthening mechanisms of Ti alloys. Computational Materials Science, 2018, 152:169-177. ( PDF )
43. T. Guo, J. S. Li, J. Wang,* W. Y. Wang, Y. Liu, X. M. Luo, H. C. Kou, E. Beaugnon, Microstructure and properties of bulk Al0.5CoCrFeNi high-entropy alloy by cold rolling and subsequent annealing. Materials Science and Engineering A, 2018, 729:141-148. ( PDF )
42. Y. D. Wu, J. J. Si, D. Y. Lin, T. Wang, W. Y. Wang,* Y. D. Wang, Z. K. Liu,and X. Hui,* Phase stability and mechanical properties of AlHfNbTiZr high-entropy alloys.Materials Science and Engineering A, 2018, 724:249-259. ( PDF )

41. J. Wang*, H. X. Yang, T. Guo, J. X. Wang, W. Y. Wang, and J. S. Li, Effect of cold rolling on the phase transformation kinetics of an Al0.5CoCrFeNi high-entropy alloy. Entropy, 2018, 20-917. (PDF)

40. R. F. Zhao, J. S. Li,* Y. Zhang, P. X. Li, J. X. Wang, C. X. Zou, B. Tang, H. C. Kou, B. Gan, L. Zhang, J. Wang, and W. Y. Wang, lmproved mechanical properties of additive manufactured Ti-6Al-4V alloy via annealing in high-magnetic field. Rare Metal Materials and Engineering, 2018, 47:3678-3685.(PDF)

39. Y. Zhang, J.S. Li, J. Wang,* W. Y. Wang, H. C. Kou, and E. Beaugnon, Temperature dependent deformation mechanisms of Al0.3CoCrFeNi high-entropy alloy, starting from serrated flow behavior.Journal of Alloys and Compounds, 2018,757:39-43. ( PDF )
38. Y. Wang,* M. Yan, Q. Zhu, W. Y. Wang, Y. D. Wu, X. Hui, R. Otis, S. L. Shang, Z. K. Liu and L. Q. Chen, Entropy and phase equilibria in refractory V-Nb-Mo-Ta-W High-Entropy Alloys: High-throughput Phonon approach supported by Dantzig's Simplex Algorithm. Acta Materialia, 2018,143:88-101. ( PDF )



2017
37. W. Y. Wang,* S. L. Shang, Y. Wang, F. B. Han, K. A. Darling, Y. D. Wu, X. Xie, O. N. Senkov, J. S. Li, X. Hui,* K. A. Dahmen, P. K. Liaw, L. J. Kecskes,and Z. K. Liu,* Atomic and electronic basis for the serrations of refractory high entropy alloys. NPJ Computational Materials, 2017,3:23. ( PDF ).
36. W. Y. Wang,* Y. Wang, S. L. Shang, K. A. Darling, H.Y. Kim, B. Tang, H. C. Kou, S. N. Mathaudhu, X. Hui, J. S. Li, L. J. Kecskes, and Z. K. Liu,* Strengthening Mg alloys by Self-dispersed Nano-lamellar Faults. Materials Research Letters, 2017, 5:415-425. ( PDF ).
35. W. Y. Wang,* J. Wang, D. Y. Lin, C. X. Zou, Y. D. Wu, S. L. Shang, K. A. Darling, Y. G. Wang, X. Hui,* J. S. Li,* P. K. Liaw,* L. J. Kecskes,and Z. K. Liu,* Revealing the microstates of BCC equiatomic high entropy alloys. Journal of Phase Equilibria and Diffusion, 2017, 38:404-415. ( PDF ).
34. J. Wang,* Y. Zhang, S. Z. Niu, W. Y. Wang, H. C. Kou, S. Q. Wang, E. Beaugnon, and J. S. Li, Formation of a hexagonal closed-packed phase in Al_0.5CoCrFeNi high entropy alloy. MRS Communications, (2017) ( PDF ).
33. T. Ahmed, E. V. Levchenko, A. V. Evteev, Z. K. Liu, W. Y. Wang, R. Kozubski, I. V. Belova, G. E Murch,* Molecular Dynamics Prediction of the Influence of Composition on Thermotransport in Ni-Al melts. Diffusion Foundations, 2017, 2:93-110. ( PDF ).
32. T. Guo, J. S. Li, J. Wang,* Y. Wang, H. C. Kou, S. Z. Niu, Liquid-phase separation in undercooled CoCrCuFeNi high entropy alloy. Intermetallics, 2017, 86:110-115.( PDF )

31. J. Zhu, X. H. Chen, L. Wang, W. Y. Wang, Z. K. Liu, J. X. Liu,* and X. Hui,* High strength Mg-Zn-Y alloys reinforced synergistically by Mg₁₂ZnY phase and Mg₃Zn₃Y₂ particle. Journal of Alloys and Compounds, 2017, 703:508-516.( PDF )

30. J. Zhu, J. B. Chen, T. Liu, J. X. Liu, W. Y. Wang, Z. K. Liu and X. Hui,* High strength Mg₉₄Zn_2.4Y_3.6 alloy with long period stacking ordered structure prepared by near-rapid solidification technology. Materials Science and Engineering A, 2017, 679:476-483.( PDF )



2016
29. W. Y. Wang,K. A. Darling, Y. Wang, S. L. Shang, L. J. Kecskes*, X. Hui, and Z. K. Liu*, Power law scaled hardness of Mn strengthened Al-Mn non-equilibrium solid solutions. Scripta Materialia, 2016, 120:31-36 ( PDF ).
28. S. L. Shang,* B. C. Zhou, W. Y. Wang, A. J. Ross, X. L. Liu, Y. J. Hu, H. Z. Fang, Y. Wang, and Z. K. Liu. A comprehensive first-principles study of pure elements: Vacancy formation and migration energies and self-diffusion coefficients. Acta Materialia, 2016, 109:128-141 ( PDF ).



2015
27. W. Y. Wang,* J. J. Han, H. Z. Fang, J. Wang, Y.F. Liang, S. L. Shang, Y. Wang, , X. J. Liu, L. Kecskes, S. N. Mathaudhu, X. Hui, and Z. K. Liu, Anomalous structural dynamics in liquid Al₈₀Cu₂₀: an ab initio molecular dynamics study. Acta Materialia, 2015, 97: 75-85.
26. W. Y. Wang,* Y. Wang, S. L. Shang, Y. J. Hu, K. A. Darling, L. J. Kecskes, S. N. Mathaudhu, X. Hui and Z. K. Liu, Lattice Distortion Induced Anomalous Ferromagnetism and Electronic Structure in FCC Fe and Fe-TM (TM=Cr, Ni, Ta and Zr) alloys. Materials Chemistry and Physics, 2015, 162: 748-756.
25. W. Y. Wang,* S. L. Shang, Y. Wang, H. Y. Kim, K. A. Darling, L. J. Kecskes, S. N. Mathaudhu, X. Hui, and Z. K. Liu, Solid solution hardening Mg-Gd-TM (TM=Ag, Zn and Zr) alloys: An integrated density functional theory and electron work function study. JOM, 2015, 67: 2433-2441.
24. W. Y. Wang,* S. L. Shang, Y. Wang, H. Z. Fang, S. N. Mathaudhu, X. Hui, and Z. K. Liu, Impact of W on the structure evolution and diffusivity of Ni-W metal melts: ab initio molecular dynamics study, Journal of Materials Science, 2015, 50:1071-1081.
23. W. Y. Wang,* B. C. Zhou, J. J. Han, H. Z. Fang, S. L. Shang, Y. Wang, X. Hui and Z. K. Liu,* Prediction of diffusion coefficients in liquids and solids. Defect and Diffusion Forum, 2015, 364:182-191.
22. Y. Wang,* W. Y. Wang, L. Q. Chen and Z. K. Liu, Bonding charge density from atomic perturbations. Journal of Computational Chemistry, 2015, 36:1008-1014 (Cover Image).
21. V. R. Manga,* S. L. Shang, W. Y. Wang, Y. Wang, J. Liang, V. H. Crespi and Z. K. Liu, Anomalous phonon stiffening associated with the (111) anti phase boundary in L1₂ Ni₃Al. Acta Materialia, 2015, 82:287-294.
20. S. L. Shang,* Y. Wang, P. W. Guan, W. Y. Wang, H. Z. Fang, T. J. Anderson, and Z. K. Liu, Insight into structural, phonon, and thermodynamic properties of α-sulfur as well as energy-related sulfides: A comprehensive first-principles study. Journal of Materials Chemistry, 2015, 3:8002-8014.
19. Y. J. Hu,* J. Li, K. A. Darling, W. Y. Wang, B. K. Vanleeuwen, X. L. Liu, L. J. Kecskes, E. C. Dickey and Z. K. Liu*, Nano-size superlattice clusters created by oxygen ordering in mechanically alloyed Fe alloys. Scientific Report, 2015, 5:11772.
18. J. J. Si, T. Wang, Y. D. Wu, Y. H. Cai, X. H. Chen, W. Y. Wang, Z. K. Liu and X. Hui,* Cr-based bulk metallic glasses with ultrahigh hardness, Applied Physics Letters, 2015, 106: 251905.


2014
17. W. Y. Wang,* S. L. Shang, Y. Wang, K. A. Darling, L. J. Kecskes, S. N. Mathaudhu, X. Hui and Z. K. Liu,* Electronic structure of long periodic stacking orders in Mg: A first-principles study, Journal of Alloys and Compounds, 2014, 586:656-662.
16. W. Y. Wang,* S. L. Shang, Y. Wang, Z. G. Mei, K. A. Darling, S. N. Mathaudhu, X. Hui and Z. K. Liu, Effects of alloying elements on stacking fault energies and electronic structures of binary Mg alloys: A first-principles study, Materials Research Letters, 2014, 2:29-36.
15. S. L. Shang,* W. Y. Wang, Y. Wang, B. C. Zhou, K. A. Darling, L. Kecskes, S. N. Mathaudhu and Z. K. Liu, Generalized stacking fault energy, ideal strength, and twinnability of dilute Mg-base alloys: A first-principles study of shear deformation. Acta Materialia, 2014, 67:168-180.
14. J. J. Han, W. Y. Wang, C. P. Wang, X. D. Hui, X. J. Liu* and Z. K. Liu, Effect of solute atoms on glass-forming ability of Fe-Y-B alloy: ab initio molecular dynamics study. Acta Materialia, 2014, 72:96-110.
13. J. J. Han, W. Y. Wang, C. P. Wang, X. Hui, X. J. Liu * and Z. K. Liu, Origin of enhanced glass-forming ability of Ce-containing Al-Fe alloy: Ab initio molecular dynamics study. Intermetallics, 2014, 46:29-39.
12. H. Zhang,* S. L. Shang, W. Y. Wang, Y. Wang, X. Hui, L. Q. Chen and Z. K. Liu, Structure and energetics of Ni from ab initio molecular dynamics calculations, Computational Materials Science, 2014,89:242-246.



2013 & Before


11. J. J. Han, W. Y. Wang, C. P. Wang, Y. Wang, X. J. Liu * and Z. K. Liu, Accurate determination of thermodynamic properties of liquid alloys based on ab initio molecular dynamic simulation. Fluid Phase Equilibria, 2013, 360:44-53.
10. S. L. Shang,* Y. Wang, W. Y. Wang, H. Z. Fang and Z. K. Liu, Low energy structures of lithium-ion battery materials Li(Mn_xNi_xCo_1-2x)O₂ revealed by first-principles calculations, Applied Physics Letter, 2013, 103:053903.
9. X. Hui,* D. Y. Lin, X. H. Chen, W. Y. Wang, Y. Wang, S. L. Shang and Z. K. Liu, Structural mechanism for ultrahigh strength Co-based metallic glasses. Scripta Materialia, 2013, 68: 257-260.
8. W. Y. Wang,* S. L. Shang, Y. Wang, K. A. Darling, S. N. Mathaudhu, X. Hui* and Z. K. Liu,* Electron localization morphology of the basal-plane stacking faults in Mg: A first-principles study. Chemical Physics Letters, 2012, 551:121-125.
7. W. Y. Wang,* S. L. Shang, H. Z. Fang, H. Zhang, Y. Wang, S. N. Mathaudhu, X. Hui and Z. K. Liu, Effect of composition on atomic structure, diffusivity and viscosity of liquid Al-Zr alloys. Metallurgical Materials Transaction A, 2012, 43:3417-3480.
6. H. Z. Fang,* W. Y. Wang, P. D. Jablonski and Z. K. Liu, Effects of reactive elements on the structure and diffusivity of liquid chromia: ab-initio molecular dynamics study. Physical Review B, 2012, 85:014207.
5. S. L. Shang,* W. Y. Wang, Y. Wang, Y. Du, J. X. Zhang, A. D. Patel and Z. K. Liu, Temperature-dependent ideal strength and stacking fault energy of fcc Ni: A first-principles study of shear deformation. Journal of Physics: Condensed Matter, 2012, 24:155402.
4. S. K. Yang, B. Kiraly, W. Y. Wang, S. L. Shang, B. Q. Cao, H. B. Zeng, Y. H. Zhao, W. Z. Li, Z. K. Liu, W. P. Cai,* and T. J. Huang,* Fabrication and characterization of beaded SiC quantum rings with anomalous red spectral shift. Advanced Materials, 2012, 24:5598-5603.
3. W. Y. Wang,* H. Z. Fang, S. L. Shang, H. Zhang, Y. Wang, X. Hui, S. Mathaudhu and Z. K. Liu, Atomic structure and diffusivity in liquid Al80Ni20 by ab initio molecular dynamics simulations. Physica B: Condensed Matter, 2011, 406:3089-3097.
2. Y. Wang,* J. J. Wang, W. Y. Wang, Z. G. Mei, S. L. Shang, L. Q. Chen and Z. K. Liu, A Mixed-space Scheme to the Direct Method for Phonons in Polar Materials. Journal of Physics: Condensed Matter (Fast Track Communication), 2010, 22:202201. (Highlights 2010 of JPCM)
1. Y. Wang, X. D. Hui,* H. Y. Wang,M. J. Zhao,High temperature fatigue properties of casting aluminum alloy-ZL109. Research and Exploration in Laboratory,2007, 26:200-202.






English Version