姚文静(西北工大教授)
人物简介
姚文静,女,出生年月1974年,博士,副教授。1997年1月毕业于西北大学物理系物理学专业,获得理学学士学位;1999年7月毕业于西北大学物理系凝聚态物理专业,获得理学硕士学位;2004年3月毕业于西北工业大学材料物理与化学专业,获得工学博士学位。2006年7月完成博士后研究工作出站。
自1999年9月攻读博士研究生起开始从事金属材料的液固相变研究,主持国家自然科学基金1项,航空科学基金1项,西北工业大学凝固技术国家重点实验室开放课题1项,主持完成教育部博士后科学基金项目1项,西北工业大学基础研究基金1项,西北工业大学青年教师科技创新项目1项,西北工业大学博士论文创新基金1项;作为主要成员参加国家自然科学基金创新优秀群体项目1项,国家自然科学基金重大项目1项及其它面上项目多项。共发表论文30余篇,被SCI收录23篇次,EI收录16篇次,被SCI他引30余次,获得专利2项。从事专业为凝聚态物理、材料物理与化学,主要研究方向为相变物理与新材料。
科研项目
13、共晶反应对Fe-Co合金磁性薄膜外延生长的作用机制研究,国家自然科学基金,主持人。
12、Ti基耐烧蚀复合材料的制备工艺研究,航空科学基金,主持人。
11、深过冷Co基合金的热物理性质和快速凝固研究,教育部中国博士后科学研究基金,主持人。
10、薄膜晶体外延生长的动力学研究,西北工业大学基础研究基金,主持人。
9、稀土超磁致伸缩智能材料的制备与特性研究,凝固技术国家重点实验室开放课题,主持人。
8、液态金属结构与性质的分子动力学研究,西北工业大学青年教师科技创新基金,主持人。
7、空间模拟条件下液态金属的快速凝固研究,西北工业大学博士论文创新基金,主持人。
6、空间材料科学地面模拟研究,国家自然科学基金创新优秀群体项目,主要完成人。
5、多元和复相合金的快速凝固理论研究,国家自然科学基金重大项目,主要完成人。
4、极端条件下复相合金的快速凝固研究,国家自然科学基金面上项目,主要完成人。
3、静电悬浮条件下包晶合金快速凝固研究,国家自然科学基金面上项目,主要完成人。
2、低扩散系数对Al-RE过共晶合金易非晶化内禀机理研究,国家自然科学基金面上项目,主要参与人。
1、调幅分解对难混溶体系壳-核组织形成作用机制实时观测研究,国家自然科学基金面上项目,主要参与人。
发表论文
1. W. J. Yaoand N. Wang, Monte Carlo Simulation of Thermophysical Properties for Al-Ce Liquid Alloys,Materials Science Forum,654-656, 2010, 1404-1407.
2. W. J. Yaoand N. Wang,Latent Heats of Fusion and crystallization behaviours of Co-Si Binary Alloys,Journal of Alloys and Compounds, 487(1-2) (2009) 354-357.
3. W. J. Yaoand N. Wang, Monte Carlo simulation of Thermophysicsal Properties for Ni-15%Mo liquid alloy,Physics Sinica, 58(6) (2009) 457-462.
4. W. J. Yaoand N. Wang, Monte Carlo simulation of specific heat of liquid Ni-Mo alloys,J.Phys.D:Appl.Phys.41 (2008) 225403.
5. W. J. Yao, F. P. Dai, and B. Wei,Monte Carlo Simulation for Surface Tension of Liquid Co-Mo Alloys,Philosophical Magzine Letters, 87(9) (2007) 613-623
6. W. J. Yao, F. P. Dai, and B. Wei, Solute Distribution Within Rapidly Grown Fe-Co Single Phase,Chinese Physics Letters, 24(2) (2007) 508-511.
7. W. J. Yao, C. D. Cao, B. Wei, Reply to comments on free eutectic and dendritic solidification fom undercooled metallic melts,Scripta Materialia, 54 (2006) 1433-1437.
8. W. J. Yao, and B. Wei, Nucleation and Growth ofCu3Sb Intermetallic Compound in Undercooled Cu-31%Sb Eutectic Alloy,Journal of Alloys and Compounds, 366 (2004) 165-170.
9. W. J. Yao, N. Wang, and B. Wei, Containerless Rapid Solidification of Highly Undercooled Co-Si Eutectic Alloys,Materials Science and Engineering A, 344(1-2) (2003) 10-19.
10. W. J. Yao, X. J. Han, and B. Wei, Microstructural Evolution During Containerless Rapid Solidification of Ni-Mo Eutectic Alloys,Journal of Alloys and Compounds, 348(1-2) (2003) 88-99.
11. W. J. Yaoand B. Wei, Microstructural Evolution During Containerless Rapid Solidification of Co-Si Alloys,Chinese Physics, 12(11) (2003) 1272-1282.
12. W. J. Yao, and B. Wei, Rapid Growth of Nickel Dendrite in Highly Undercooled Ni-Mo Alloys,Science in China: series E, 46(6) (2003) 593-606.
13. W. J. Yao, C. Yang, X. J. Han, M. Chen, B. Wei, and Z. Y. Guo, Rapid Growth of (Ni,Cu) Dendrite in Microgravity Conditions,Physics Sinica, 52(2) (2003) 448-452
14. W. J. Yaoand B. Wei, Rapid Solidification of Co-Sn Eiutectic alloy in Drop Tube,Progress of Natural Science (in Chinese), 13(9) (2003) 134-139.
15. W. J. Yao, X. J. Han, M. Chen, B. Wei, and Z. Y. Guo, Surface Tension of Undercooled Liquid Cobalt,Journal of Physics: Condensed Matters, 14 (2002) 7479-7485.
16. W. J. Yao, N. Wang, and B. Wei, Rapid Solidification of Highly Undercooled Co-30wt%Sn Alloy.Journal of Materials Science Letters, 21(5) (2002) 357-360.
17. W. J. Yao, X. J. Han, and B. Wei, High Undercooling and Rapid Dendritic Growth of Cu-Sb Alloy in Drop Tube,Chinese Science Bulletin, 47 (2002) 1312-1316.
18. W. J. Yao, X. J. Han, and B. Wei, Rapid Eutectic Growth During Free Fall,Chinese Science Bulletin, 47 (2002) 1316-1320.
19. W. J. Yao, C. D. Cao, and B. Wei, Rapid Growth of Primary Dendrite in Highly Undercooled Cu-Sb Alloy,Progress of Natural Science, 12 (2002) 935-939.
20. W. J. Yao, and B. Wei, Rapid Eutectic Growth of Highly Undercooled Co-34.2%Sn Alloy Under Containerless Condition,Proceedings of 2nd China-Germany Workshop on Microgravity Science, (2002) 113-118.
21. W. J. Yao, Y. F. Su, and D. R. He, A Dynamic and Thermodynamic Model of Diamond Film Growth,Diamond and Related Materials, 9 (2000) 1664-1667
22. H. P. Wang,W. J. Yaoand B. Wei,Remarkable solute trapping within rapidly growing dendrites,Applied Physics Letters, 89 (2006) 201905.
23. H. P. Wang,W. J. Yao, C. D. Cao and B. Wei, Surface Tension of Superheated and Undercooled Liquid Co-Si Alloy,Applied Physics Letters, 85(16) (2005) 3414-3416.
24. N. Wang, X. Wang andW. J. Yao, The Contribution of Diffusion Coefficient to the Eutectic Instability and Amorphous Phase Formation,Materials Science Forum,654-656, 2010, 1355-1358.
25. X. J. Han,W. J. Yao, and B. Wei, Microstructural Evolution of Rapidly Solidified Co-Mo and Ni-Mo Eutectic Alloys,Journal of Materials Science and Technology, 19(6) (2003) 553-556.
26. X. J. Han,W. J. Yao, and B. Wei, Rapid Hypoeutectic Growth Within a Highly Undercooled Liquid Under Containerless Condition,Chinese Physics Letters, 19(4) (2002) 584-587.
27. N. Wang, G. Li,W. J. Yaoand X. X. Wen, Interactive contribution of grain size and grain orientation to coercivity of melt spun ribbons,Journal of Magnetism and Magnetic Materials, 322 (2010) 362-365.
28. N. Wang,W. J. Yao, Adiabatic calorimeter design and specific heat measurement of liquid and undercooled liquid metals,International Journal of Materials Science and Engineering,1 (2010) 1-7。
29. B. Y. Gong,W. J. Yaoand N. Wang, Monte Carlo Simulation of Film Growth during Initial Deposition,International Journal of Materials Science and Engineering, 1 (2010) 17-21。
30. Z. Z. Wang, N. Wang andW. J. Yao, Effect of Low Diffusion Coefficient on Easy Amorphization of Pd77Cu6Si17Alloy,Physics Sinica, 10 (2010) 7431-7436.
31. L. F. Tang, N. Wang, Q. Guan,W. J. Yao, Effect of Crystal Orientation on Crystal Integrity During the Laser Melting Procedure of Single Crystal,Physics Sinica, 11 (2010) 7941-7948.
32. Y. M. Wang,W. J. Yao,Y. F. Su,and D. R. He,A Dynamic Model for Diamond Film Growth,1999 Centennial Meeting of the American Physical Society, DP01 (1999) 196.
33. D. R. He,W. J. Yao, Y. F. Su, A Dynamic and Thermodynamic Model of Diamond Film Growth,The Fifth IUMRS International Conference on Advanced Materials, E-30, 1999.
获得专利情况:
(1)“一种Fe-Ni软磁合金薄带的成形方法”,王楠,李刚,王振中,姚文静,国家发明专利:ZL200810231988.7.
(2)“一种电磁悬浮用多头样品支架”,王楠,姚文静,王振中,王晓,实用新型专利:ZL201020252616.5。