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张国君

【来源: | 发布日期:2018-02-06 】

基本情况

姓 名:张国君

出生年月:1974年6月

职 称:教授

毕业院校:西安理工大学

Emial:zhangguojun@xaut.edu.cn

个人主页: http://js.xaut.edu.cn/web/zhanggj

 

学习与工作情况

2000年3月在西安理工大学获材料学硕士学位

2000年4月起在西安理工大学材料学院从事教师工作

2005年1月获西安交通大学材料学博士学位

2007年6月西交大力学博士后流动站出站

2005年10月被聘为西安理工大学材料学院副教授,2009年1月晋升为教授

研究方向

1、高性能有色金属材料的制备与强韧化

2、纳米多层薄膜的制备与性能表征

3、材料表面工程

获奖情况

1、2007年西安理工大学“青年教工新星奖”和“科技新星奖”称号

2、2008年获第十九届“陕西省青年突击手”称号

3、2009年获第十四届“西安市十大杰出青年”提名奖

4、2009年获第十四届“西安市青年突击手标兵”称号

5、2009年入选教育部“新世纪优秀人才”资助计划

6、2010年获第八届“陕西省青年科技奖”称号

科研情况

主持:

1、国家高技术研究发展计划(863)重点项目课题1项(已结题);

2、国家自然科学基金青年科学基金1项(已结题);

3、国家自然科学基金面上项目1项;

4、国家“十二五”科技支撑计划项目子课题1项;

5、国家重点基础研究发展计划(973)子课题1项;

6、校企合作项目多项。

参加:

1、国家自然科学基金面上项目1项(已结题);

2、国家高技术研究发展计划(863)项目2项(已结题)。

专著及教材

谢辉,张国君,王德志,吕振林,赵鹏,孙院军 钼粉末冶金过程及钼材料 北京:科学出版社,2012

发表论文

1、 Nanostructured high-strength molybdenum alloys with unprecedented tensile ductility,Nature Materials(IF=32.8), 12(2013)344-350(2ndAuthor, SCI:120IV)

2、 Effect of Si/B ratio on the microstructure and mechanical properties of lanthanum oxide-doped Mo–Si–B alloys,Journal of Alloys and Compounds(IF=2.134),577(2013) 217–221(1stAuthor, SCI:213TJ)

3、 Effects of lanthanum oxide content on mechanical properties of mechanical alloying Mo–12Si–8.5B (at.%) alloys,International Journal of Refractory Metals and Hard Materials(IF=1.750),Doi: 10.1016/j.ijrmhm.2013.07.011(1stAuthor, SCI源)

4、Microstructure, mechanical and tribological behavior of MoNx/SiNx multilayer coatings prepared by magnetron sputtering,Applied Surface Science(IF=2.103), 274 (2013) 231– 236(1stAuthor, SCI:139QK)

5、Microstructure and mechanical properties of lanthanum oxide-doped Mo–12Si–8.5B(at%) alloys,Journal of Alloys and Compounds(IF=2.134), Doi:10.1016/j.jallcom.2012.03.037(1stAuthor, SCI源)

6、Microstructure and Oxidation Resistance Behavior of Lanthanum Oxide-doped Mo-12Si-8.5B Alloys,International Journal of Refractory Metals and Hard Materials(IF=1.750),30 (2012) 6–11(1stAuthor, SCI: 843QX)

7、Size-dependent deformation mechanisms and strain-rate sensitivity in nanostructured Cu/X (X = Cr, Zr) multilayer films,Acta Materialia(IF=4.349), 60(2012):3677-3689(6thAuthor, SCI:953CL)

8、Grain-size-dependent zero-strain mechanism for twinning in copper,Physical Review B(IF=3.691), 86(2012): 064110(5thAuthor, SCI:992PN)

9、Enhanced mechanical properties of columnar grained-nanotwinned Cu films on compliant substrate via multilayer scheme,Materials Science and Engineering A(IF=2.319),554(2012) 116–121(5thAuthor, SCI:990FL)

10、An easy way to prepare layered nanoplatelets: Fragment of nanostructured multilayers, Journal of Applied Physics(IF=2.168), 111(2012): 113519(6thAuthor, SCI:960PW)

11、Tailoring nanostructured Cu/Cr multilayer films with enhanced hardness and tunable modulus, Materials Science and Engineering A(IF=2.319),543 (2012) 139–144(6thAuthor, SCI:932NS)

12、Mechanical properties of fcc/fcc Cu/Nb nanostructured multilayers,Materials Science and Engineering A(IF=2.319),545 (2012) 118– 122(6thAuthor, SCI: 939EZ)

13、Formation of multiple twins and their strengthening effect in nanocrystalline Cu/Zr multilayer films,Materials Science and Engineering A(IF=2.319), 539 (2012) 68–73(6thAuthor, SCI: 915SI)

14、Tensile properties and strengthening mechanisms of Mo–Si alloy,International Journal of Refractory Metals and Hard Materials(IF=1.750),2011, 29 (5) 608–613(1stAuthor, SCI: 793CO)

15、The influence of silicon content on microstructure and hardness of Mo–Si alloys,International Journal of Refractory Metals and Hard Materials(IF=1.750),2011, 29 (1) 96–103(1stAuthor, SCI: 686BJ)

16、Length-scale-dependent deformation and fracture behavior of Cu/X (X = Nb, Zr) multilayers: The constraining effects of the ductile phase on the brittle phase,Acta Materialia(IF=4.349), 59 (2011) 7368–7379(8thAuthor, SCI: 839YK)

17、Microstructure, mechanical and tribological properties of Ti(C, N)/a-C gradient composite films,Thin Solid Films(IF=2.023), 2011, 519 (19) 6246–6251(2ndAuthor, SCI: 792DF)

18、Effect of interface bonding on the phase-transformation-aided magnetoelectric effect in ferromagnetic/ferroelectric composites,Journal of Materials Science(IF=1.471), 2011, 6(8): 2479-2487(2ndAuthor, SCI: 712AD)

19、Dominant factor controlling the fracture mode in nanostructured Cu/Cr multilayer films,Materials Science and Engineering A(IF=2.319), 2011, 528(6): 2982-2987(4thAuthor, SCI: 725KI)

20、Length scale dependent yield strength and fatigue behavior of nanocrystalline Cu thin films,Materials Science and Engineering A(IF=2.319), 528 (2011) 7774– 7780(5thAuthor, SCI: 824EB)

21、Influences of annealing temperature on microstructure and mechanical properties of Mo–La2O3,International Journal of Refractory Metals and Hard Materials(IF=1.750),2011, 29(4): 522-527(5thAuthor, SCI: 771DY)

22、Microstructural characterization of Mo–12Si–8.5B alloy subjected to diffusion annealing treatment,International Journal of Refractory Metals and Hard Materials(IF=1.750),2010, 28(3): 377-382(3rdauthor, SCI: 584KM)

23、Influence of mechanical failure on the magnetoelectric response of magnetostrictive/piezoelectric multiferroic composite,Journal of Materials Science(IF=1.471), 2010, 45(16): 4490-4493(3rdauthor, SCI: 610NN)

24、A maximum in ductility and fracture toughness in nanostructured Cu/Cr multilayer films,Scripta Materialia(IF=3.072),2010, 62(6):333-336(4thauthor, SCI: 562RY)

25、Scaling of the ductility with yield strength in nanostructured CuCr multilayer films,Scripta Materialia(IF=3.072),2010, 63(1):101-104(4thauthor, SCI: 599GK)

26、Microstructure and strengthening mechanisms of molybdenum alloy wires doped with lanthanum oxide particles,International Journal of Refractory Metals and Hard Materials(IF=1.750),2009, 27(1):173-176(1stAuthor, SCI: 427OY)

27、Influence of constituents on the ductile fracture of Al-Cu-Mg alloys: modulated by the aging treatment,Materials Science and Engineering A(IF=2.319),2009, 526(1):171-176(1stAuthor, SCI: 514AW)

28、Microstructure and tribological properties of TiN, TiC and Ti(C, N) thin films prepared by CFUBMSIP,Applied Surface Science(IF=1.895),2009, 255(21):8788-8793(1stAuthor, SCI: 477GF)

29、Aging-dependent coupling effect of multiple precipitates on the ductile fracture of heat-treatable aluminum alloys,Materials Science and Engineering A(IF=2.319),2009(499 A)387-395(4thauthor, SCI: 383VW)

30、Effect of precipitate morphology evolution on the strength toughness relationship in Al-Mg-Si alloys,Scripta Materialia(IF=3.072),2009, 60(12):1109-1112(4thauthor, SCI: 442AV)

31、Mechanical strength lowering in submicron Cu thin films by moderate DC current,Applied Physics A: Materials Science and Processing(IF=1.595), 2009, 97(2): 369-374(5thauthor, SCI: 494UQ)

32、Microstructure and mechanical properties of multi-components rare earth oxide-doped molybdenum alloys,Materials Science and Engineering A(IF=2.319),2008, 483(1):350-352(1stAuthor, SCI: 303WH)

33、Thickness dependent fatigue lifetime at microcrack nucleation for metal thin films adherent to flexible substrate,Journal of Physics D: Applied Physics(IF=2.083),2008 (41):195404(4thauthor, SCI: 351RG)

34、Heat treatment-modulated coupling effect of multi-scale second-phase particles on the ductile fracture of aged aluminum alloys,Acta Materialia(IF=4.349),55(2007): 273-284(2ndauthor, SCI: 358PZ)

35、Thickness dependent critical strain in submicron Cu films adherent to polymer substrate,Applied Physics Letters(IF=3.554),90(2007):161907(4thauthor, SCI: 118FV)

36、Coupling effect of multiple precipitates on the ductile fracture of aged Al-Mg-Si alloys,Scripta Materialia(IF=3.072),57(2007): 865-868(4thauthor, SCI: 208ZB)

37、Microstructure and strengthening mechanism of oxide lanthanum dispersion strengthened molybdenum alloy,Advanced Engineering Materials(IF=1.506),2004,6(12):943-948(1stAuthor, SCI: 888MZ)

38、The Influences of Multi-Scale Sized Second Phase Particles on Ductility of Aged Aluminum Alloys,Metallurgical and Materials Transactions A(IF=1.564),2004(35A): 1725-1734(2ndauthor, SCI: 823AU)

39、Modeling the strengthening response to aging process for aluminum alloys containing plate/disc or rod/needle-shaped precipitates,Materials Science & Engineering A(IF=2.319),2003(344): 113-124(2ndauthor, SCI: 635FX)