威尼斯游戏大厅-威尼斯电子游戏平台

田娜

【来源: | 发布日期:2018-02-06 】

基本情况:

姓    名:田 娜                     

职    称:副教授,硕士生导师

专    业:材料科学与工程   

E-mail:tianna@xaut.edu.cn

学习经历:

2007.11 威尼斯游戏大厅, 获博士学位;

2001.04 威尼斯游戏大厅, 获硕士学位;

1998.07 威尼斯游戏大厅, 获学士学位。

工作经历

2001.4 -      威尼斯游戏大厅 教 师

2003.7-2005.7 日本国立物质材料研究机构 合作研究

2008          日本国立物质材料研究机构 研究助理

研究方向:

1、金属功能材料

荣誉与获奖:

   2019年 陕西省侨联系统先进工作者;校 毕业设计优秀指导教师;校 教学成果奖二等奖;院 优秀党务工作者;

   2018年 陕西省 高校优秀党务工作者;校 优秀党务工作者; 校 毕业设计优秀指导教师;院 本科教学奖(前10%);

   2017年 院 本科教学奖(前10%);

   2016年 校 综合考核优秀;校 毕业设计优秀指导教师;院 本科教学奖(前10%);

   2015年 校 毕业设计优秀指导教师; 院 综合考核优秀;

   2014年 校 本科教学优秀奖; 院 工会积极分子;

   2013年 校 科研先进;

   2012年 校 综合考核优秀;院 优秀共产党员;校 毕业设计优秀指导教师;校 优秀导师;

   2011年 校 科研先进;

   2010年 校 科研优秀;

   2003年 陕西省教学成果奖二等奖。

主持科研项目:

 7. 校教学改革项目:基于工程教育专业认证的材料类专业课程翻转教学模式研究与实践;

 6.陕西省自然科学基金:无稀土Co基永磁合金的非平衡相转变及其磁性;

 5.国家自然科学基金:Nd-Fe-B/α-Fe基纳米复合多层膜的界面析出及其交换耦合的研究;

 4.陕西省自然科学基金:LaFeSi系稀土磁致冷材料应用稳定性的改善机理;

 3.教育部博士点基金:高强度纳米晶/非晶复合结构Al基合金的制备及其力学性;

 2.教育厅科学研究计划:Al基非晶纳米多孔材料的制备及其功能化;

 1.校教学改革项目:《材料及热加工工艺》智能试题库系统建设。

专    利:

    3. 一种La(Fe, Si)13Hx氢化物磁制冷材料制备和成型一体化的方法(2017108874214)

    2. 一种片状绒面结构磁性微波吸收剂的制备方法  (2017108875306)

   1. 一种La(Fe,Si)13Hx氢化物磁制冷材料的制备方法(2017100257635)

论文发表:

2019 年

44. Surface texturing and enhanced microwave absorption of Fe-B alloy flakes through a dealloying process. IEEE transactions on magnetic 2019.55(7)4002105.

43. Magnetocaloric effect and solid hydriding of La (Fe, Si) 13 powders through decomposing YH2 hydride or the composite of YH2-C. AIP Advances 9 (2019) 035315

42. Structures, magnetism and transport properties of the potential spin-gapless semiconductor CoFeMnSi alloy Journal of Magnetism and Magnetic Materials, 473(2019)16–20

2018年

41. Electric-field tuning of magnetism in spin gapless semiconductor (SGS)-like CoFeMnSi thin film. APPLIED PHYSICS LETTERS  2018 112( 26): 262406

40. Perpendicular Magnetic Anisotropy and Hydrogenation-Induced Magnetic Change of Ta/Pd/CoFeMnSi/MgO/Pd Multilayers. NANOSCALE RESEARCH LETTERS.  (2018) 13:222

39. Simultaneous plate forming and hydriding of La(Fe, Si)13 magnetocaloric powders Journal of Magnetism and Magnetic Materials, 451(2018)47–50

2017

38. Crystallization and atomic diffusion behavior of the high coercive Ta/Nd-Fe-B/Ta based permanent magnetic thin film. Appl. Phys. A (2017) 123:414

37. Improved magnetic and microwave absorption properties of manganese nitrides through the addition of ferrous, Journal of Alloys and Compounds 2017, 703: 13-18

2016

36. A Facile method of improving the high rate cycling performance of LiNi1/3Co1/3Mn1/3O2cathode material. Journal of alloy and compounds, 2016, 686: 267-272

35. Improvement of magnetic hysteresis loss, corrosion resistance and compressive strength through spark plasma sintering magnetocaloric LaFe11.65Si1.35/Cu core-shell powders. AIP Advances, 6 (2016) 055321-1-7

34. Interfacial contributions to perpendicular magnetic anisotropy in Pd/Co2MnSi/MgO trilayer films, Journal of Physics D: Applied Physics J. Phys. D: Appl. Phys. 00 (2016) 1951001-1-9

33. Dy2O3掺杂对机械球磨Nd-Fe-B/α-Fe复合磁体矫顽力的影响,材料研究学报. 2016,30(2):95-98

2015

32. Fabrication of perpendicular magnetic anisotropic Nd-Fe-B based thin films through annealing Nd-Fe-B/Nd-Fe multilayer Physica B Condensed Matter 2015, 477:129-132 (SCI:CT6WM;IF:1.319;EI:20153501225436;20151115)

31. Perpendicular magnetic anisotropy in Ta/Pd/Co2FeAl0.5Si0.5/MgO/Ta structured films.Physica B Condensed Matter 2015, 468–469:101-104 (SCI:CI0CZ, IF:1.319;20150701)

30. Improved electromagnetic microwave absorption of the annealed pre-sintered precursor of Mn–Zn ferrite.Journal of Magnetism and Magnetic Materials, 2015,381: 377-381(SCI:CB1BJ; IF:1.970;20150501)

29. Interaction of Ta-O and perpendicular magnetic anisotropy of Ta/Pd (0 - 2.4 nm)/Co2FeAl0.5Si0.5/MgO/Ta structured films.Journal of Magnetism and Magnetic Materials, 2015,377: 276-280(SCI: AU6AA;20150301)

28. Electrolytic hydriding of La(Fe, Si)13 based materials and its magnetocaloric effect,Materials Science Forum, 2015, 809-810: 443-448(EI: 20150600501707)

27. Electroless Fabrication of Nd-Fe-B/α-Fe Heterostructrured Composite Magnets and Their Magnetic Properties, Materials Science Forum, 2015, 809-810: 426-432(EI: 20150600501703)

26. Influence of Nd Doping on the Magnetic Properties of Nd2Fe14B/α-Fe Nanocomposite Magnets, Materials Science Forum, 2015, 809-810: 88-92(EI: 20150600501784)

2014

25.颗粒尺寸对LaFe11.5Si1.5系合金磁热性能的影响,稀土,2014,35(5):69- 72(EI:201446210346)

24.纳米多孔氧化铝膜的制备与结构表征,热加工工艺,2014,43(18):121-123

23. Synthesis of meso/macroporous aluminum nitrides via aluminum alloy ceramization, RSC Adv., 2014, 4, 6840–6844(SCI: 292VP)

2013

22. Influence of surface nanocrystallization for Ti-6Al-4V alloy on its gas nitriding,Applied Surface Science 286 (2013) 412– 416(SCI-CD:246ZK;EI:20134716994732)

21.表面晶粒细化对低温渗氮行为的影响,材料热处理学报2013,34(9):177-182(EI:20134717016566)

20. Electromagnetic microwave absorption of Fe-Si flakes with different mixtures,J. Mag. Mag. Mater. 2013, 339: 114–118.(SCI-CD:143YB EI: 20131816300259)

19. Electromagnetic Microwave Properties of Fe82B17Cu1Ball Milled Alloy,Modern Physics Letters B.2013,27(19):1341021(SCI-CD:189FV)

18. Magnetocaloric properties and corrosion behavior of LaFe11.5Si1.5particles coated with Cu, J. Appl. Phys. 2013,113:103909(SCI-CD:112BC)

2012

17. Enhanced microwave absorption of Fe flakes with magnesium ferrite cladding, J. Mag. Mag. Mater. 2012, 324(24): 4175–4178.(SCI-CD:003LS;EI:20123615409433)

16. Effects of Cu underlayer on the growth and magnetic properties of FePt thin films on MgO (001) substrate, J. Nanosci. Nanotechnol. 2012, 12(2): 1099-1104.(SCI:932HA;EI:20122315088471)

15. Coercivity enhancement of Nd2Fe14B/α-Fe nanocomposite magnets through neodymium diffusion under annealing. J. Rare Earths, 2012 30 (8): 757- 760(SCI:014LP;)

2011

14. Coercivity enhancement of Nd-Fe-B thin film magnets through Dy surface diffusion process, J. Mater. Sci. Technol., 2011,27: 826. (SCI:836MV )

2010

13. B effects on crystallization and Magnetic properties of Pr9.4Fe90.6Bx (x = 7.16, 4.76) nanocomposite magnets, Acta Metallurgica Sinica (English Letters) 2010, 23: 321-326.(SCI:771AA;EI:20112814144709)

12. Current-perpendicular- to-the-plane giant magnetoresistance of an all-metal spin valve structure with Co40Fe40B20magnetic layer, Appl. Phys. Lett. 2010,96:142503(SCI:581VY)

2009

11. 0Cr18Ni9不锈钢表面纳米化组织及其热稳定性对低温渗氮行为的影响,金属学报2009 45(5):566-572 (EI: 20092412123480)

10. 0Cr18Ni9不锈钢表面纳米化对耐蚀性的影响,金属热处理2009 34(1):72-75(SCI:453RF)

2007

9.稀土和镍含量对Al-Gd-Er-Ni金属玻璃初晶化的影响.材料热处理学报. 2007,28(3):41-45(EI:20073110736857)

8. (Al100-xBex)85Gd8Ni7(x=0-8.4)合金的玻璃形成能力和初晶化.金属热处理. 2007, 32(7):30-33(EI:20073210754803)

2005

7. Influence of Be on the Glass Forming Ability and Thermal Stability of Al-based Metallic Glasses, J. Metastable and Nanocrystalline Materials,2005,24-25:491-494.(EI: 20091612033901)

6. Primary crystallization of Al88Gd6Er2Ni4metallic glass. Mater. Trans., 2005, 46: 2880 – 2885. (SCI:005TK)

5. Heating rate dependence of glass transition and primary crystallization of Al88Gd6Er2Ni4 metallic glass. Scripta Mater., 2005, 53: 681 – 685.(SCI:952BD)

2001

4.稀土-镍贮氢合金的研究现状与发展.稀土, 2001, 2: 53-58.

3. MlαMm1-αNi5贮氢合金的结构与性能预测.功能材料,2001,32(4)1073-1075

2000

2.等离子喷涂陶瓷涂层的研究.金属热处理,2000,4:32-33 (EI: 2000095315032)

1.后氧化处理对等离子喷涂陶瓷涂层性能的影响.金属热处理学报,2000,21(4):23-28 (EI: 2001035574527)