原子尺度上相分离型合金熔体的表征及非晶形成机制研究 国家自然科学基金项目,第一负责人; 2014.01-2016.12 • 铝合金熔体的微观不均匀性与非晶力学性能 国家自然科学基金项目,第一负责人;2006, 01-2008, 12 • 铁基非晶中大单胞相的形成及其作用, 国家自然科学基金,第二负责人: 2009,01-2011,12 • Al-Ni-Zr合金熔体结构记忆效应与非晶形成能力研究,山东省优秀中青年科学家奖励基金,第一负责人;2004, 1-2006, 12 • 金属液固界面基本属性研究,山东省自然基金,第一负责人;2010, 01-2013, 12 • 铝合金晶粒细化机制的试验与第一原理研究,人事部博士后特别资助项目,第一负责人,2009, 01-2011, 12 • 金属熔体凝固过程热传输与晶体生长,人事部资助项目,第一负责人,2009, 01-2010, 12 • 铝合金晶粒细化从头算研究,山东省博士后基金项目,第一负责人,2009, 01-2011, 12 • 大面积、高度均匀有序量子点阵列制造及其在量子点激光器中的应用,国家自然基金重点项目,第三负责人,2010.01-2013, 12
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In 2012 1. T. Fang, L. Wang, Y. Qi, Liquid immiscibility in an Fe–Cu alloy by molecular dynamics simulation, Journal of Physics, condensed matter, 24 (2012) 505103 (6pp) (Corresponding author) 2. L. H. Fang, L. Wang, First principles study of TiC(110) surface,Trans. Nonferrous Met. Soc. China, 22(2012) 170−174 (Corresponding author) 3. L. Wang, T. Fang, J. H. Gong, First-principles study of TiC(111) surface, Applied Mechanics and Materials, 229-231 (2012) pp 82-86 4. L. Wang, T. Fang, Crystal growth of Ni on liquid-solid interface, Applied Mechanics and Materials, 229-231 (2012) pp 59-62 In 2011 5. L. Wang, J. H. Gong, Ab initio calculation of (001) TiAl3/Al interface, Advanced Materials Research, 295-297 (2011) pp 1305-1310 6. L. Wang, J. H. Gong, Structural stability and mechanical properties of Ni nanowires under different orientation and size, Advanced Materials Research, 295-297 (2011) pp 569-573 7. Bulk and (001) surface properties of TiAl3 compound, Advanced Materials Research, 299-300 (2011) pp 417-421 In 2010 8. Li Wang, chuanxiao Peng, Jianhong Gong, Multishell structure formation in Ni nanowire under uniaxial strain along<001>crystallographic direction: A molecular dynamics simulation, Physica B 405 (2010) 1721-1724
9. First-principles study of bulk and (001) surface of TiC, Lihong Fang, Li Wang, Jianhong Gong, Hongshang Dai, Trans. Nonferrous Met. Soc. China 20(2010) 857-862 (corresponding author) In 2009 10. Li Wang, Chuanxiao Peng, Jianhong Gong, Molecular dynamics study of the mechanics for Ni single-wall nanowires, European Journal of Mechanics A/Solids 28 (2009) 877–881 11. Chuanxiao Peng, Jianhong Gong, Li Wang, The structure of ultrathin Ni nanowires Computational Materials Science 46 (2009) 229–232 (Corresponding author) In 2008 12. L. Wang, X. F.Han, Y. N. Zhang, Application of modified Lennard–Jones potentials to structural and dynamical studies for liquid Al, Journal of Non-Crystalline Solids 354 (2008) 4970–4974 13. Yanning Zhang, Li Wang , Weimin Wang, Relaxation, crystallization, and glass transition in supercooled liquid Ni, Physics Letters A 372 (2008) 690–694 (Corresponding author) In 2007 14. Y. N. Zhang, L. Wang and W. M. Wang, Thermodynamic, dynamic and structural relaxation in supercooled liquid and glassy Ni below the critical temperature Journal of Physics: Condensed Matter, 19 (2007) 196106 1-12 (Corresponding author) 15. Y. N. Zhang, L. Wang, S. Morioka, and W. M. Wang, Modified Lennard-Jones potentials for Cu and Ag based on the dense gaslike model of viscosity for liquid metals, Physics Review B 75, (2007) 014106 1-9 (Corresponding author) 16. L. Wang, Y. N. Zhang, X. M. Mao, and C. X. Peng, Formation of NiZr2 Binary Metallic Glass: Experimental and Molecular Dynamics Analyses, Chinese Physics Letters, 24 (2007) 2319-2322 In 2006 17. L. Wang, C. X. Peng, Y. Q. Wang and Y. N. Zhang, Vitrification and crystallization of metallic liquid under pressures, Journal of Physics: Condensed Matter, 18 (32) (2006) 7559-7568 18. L. Wang, Y. Q. Wang, C. X. Peng and Y. N. Zhang, Medium-range structural order in liquid Ni20Al80 alloy: experimental and molecular dynamics studies, Physics Letters A, 350 (5-6) (2006) 405-409 19. L. Wang, C. X. Peng, Y. Q. Wang and Y. N. Zhang, Relating nucleation to dynamical and structural heterogeneity in supercooled liquid metal, Physics Letters A, 350 (1-2) (2006) 69-74 20. Y. N. Zhang, L. Wang, W.M. Wang and J. K. Zhou Structural transition of sheared-liquid metal in quenching state, Physics Letters A, 355 (2) (2006) 142-147 |
