王楠(西北工業大學教授)

王楠(西北工業大學教授)

王楠,男,出生年月1971年8月,教授、博士、博導。教育部首批新世紀優秀人才,陝西省物理學會理事,陝西省青年科技獎獲得者,陝西省優秀留學回國人員,國家自然科學基金、國家科技部及陝西省國際合作項目評審專家,Journal of Alloys and Compounds、Materials Science and Engineering B等國際期刊審稿人。

基本介紹

  • 中文名:王楠
  • 民族:漢族
  • 畢業院校:西北工業大學套用物理系
  • 主要成就:2003年由講師直接破格為教授
    獲國家級、省部級以上科研獎勵6項
社會職務,教育背景,工作經歷,科研項目,榮譽獎項,

社會職務

先後主持國家自然科學基金等科研項目10項,參加國家自然科學基金重點項目、863計畫項目等20餘項。發表論文80餘篇,獲國家級、省部級以上科研獎勵6項,授權專利6項。2003年由講師直接破格為教授。先後在瑞士洛桑聯邦理工大學(EPFL)材料系和美國能源部Ames實驗室做訪問學者及訪問教授。

教育背景

1994年:西北工業大學套用物理系,套用物理學工學學士;
1997年:西北工業大學套用物理系,材料物理工學碩士;
2000年:西北工業大學套用物理系,材料物理與化學工學博士。

工作經歷

2000.07-2001.:西北工業大學套用物理系,講師;
2001.10-2003.3:瑞士洛桑聯邦理工大學(EPFL),訪問學者;
2003.4-至今:西北工業大學理學院,教授;
2005.2-2007.1:美國能源部Ames實驗室,高級訪問學者;
2010.11-2011.2:美國能源部Ames實驗室,訪問教授;
2011.7-2011.10:美國能源部Ames實驗室,訪問教授;
2012.7-2011.9:美國能源部Ames實驗室,訪問教授;
2013.1-2011.3:美國能源部Ames實驗室,訪問教授。

科研項目

1.“金屬間化合物強動力學效應對非晶轉變的作用機制研究”,國家自然科學基金(51271149),2013.1-2016.12;
2.“調幅分解對難混溶體系殼-核組織形成作用機制實時觀測研究”,國家自然科學基金項目(50971104),2010.01-2012.12;
3.“低擴散係數對Al-R過共晶合金易非晶化內稟機理研究”,國家自然科學基金項目(50871090),2009.01-2011.12;
4.“極端條件下復相合金快速凝固研究”,國家自然科學基金項目(50101010),2002.01-2004.12;
5.“高性能Al基稀土合金的設計與製備”,陝西省國際合作項目(2011KW-10)2012.01-2013.12.
6.“雷射熔凝DD3高溫合金凝固裂紋形成機理研究”,航空科學基金項目(2008ZF53052),2008.10-2010.9;
7.“特定條件下的晶體形態穩定性及生長機制研究”,教育部新世紀優秀人才項目(NCET-04-0963),2004-2007;
8.“不混溶間隙合金的相選擇機制研究”,人事部留學回國人員擇優資助項目(2005CQ110001),2005.1-2005.12.
9.“調幅分解條件下相分離及層殼組織形成機制研究”,教育部留學回國人員啟動基金(2004CJ110002),2004.11-2006-11.
10.“透明不混溶間隙體系相分離機制及實時觀測研究”,西北工業大學基礎研究基金(NPU-FFR-W018108),2008-2010.
11.“高性能Fe基磁性材料的製備”,西北工業大學科技創新項目(M450213),2008-2010.

榮譽獎項

陝西省優秀留學回國人員(2009)
第5屆陝西省青年科技獎(2004)
首批新世紀優秀人才(2004)
國家自然科學二等獎(2003)
全國優秀論文提名獎(2003)
陝西省外國智力引進先進工作者(2001)
陝西省科技進步一等獎(2000)
航空科技進步一等獎(1999)
航空科技進步一等獎(1998)
西安市科技進步一等獎(1998)
陝西省教委科技進步一等獎(1998)
國家發明二等獎(1997)。
五、代表性論文
2013年:
1. L. Zhou,N. Wang, L. Zhang, and W. J. Yao, The effects of the minority phase on phase separation in Fe–Sn hypermonotectic alloy,Journal of Alloys and Compounds,555 (2013) 88-94.
2. W. J. Yao, W. Sun, J.Y. Wang,N. Wang, J.H. Lee, Rapid solidification and magnetism characteristics of Co-11.8 at%Gd and Co-7.5 at%Gd dual-magnetic ribbons at different wheel speeds,Materials Science and Engineering B, 178 (2013) 752-761.
2012年:
3. R. Trivedi andN. Wang,Theory of Rod Eutectic Growth under far from Equilibrium Conditions: Nanoscale Spacing and Transition to Glass,Acta Materialia,60(2012) 3140-3152.
4. N. Wang, L. Ji, W. J. Yao, and Y. P. Zheng, Correlation between fragility eutectic instability and glass-forming ability in binary metallic glasses under growth controlled process,Journal of Applied Physics,111, 103525 (2012) (6 pages).
5. N. Wang,L. Zhang, Y. P. Zheng, and W. J. Yao, Shell phase selection and layer numbers of core-shell structure in monotectic alloys with stable miscibility gap,Journal of Alloys and Compounds,538 (2012) 224-229.
6. W. J. Yao, J. S. Li, J. Y. Wang, andN. Wang, Effect of rare earth Th on thermophysical properties of ternary Co–Fe–Th liquid alloy,Journal of Alloys and Compounds,543 (2012) 176-180
7. N. Wang, R. N. Yang, W. J. Yao, J. F. Xu, and X. X. Wen, Interactive effect of Grain Orientation and Grain Size on Magnetic Properties of Fe-78wt%Ni Ribbons,Journal of Materials Science and Technology, 28(9) (2012) 833-836.
8. 任群,王楠,張莉,王建元,鄭亞萍,姚文靜,調幅分解及形核對相分離作用機理研究,物理學報,61 (19) (2012) 196401 (7 pages).
9. L. Lan, Y. P. Zheng, A. B. Zhang, J. X. Zhang,N. Wang, Study of ionic solvent-free carbon nanotube nanofluids and its composites with epoxy matrix,Journal of Nanoparticle Research, 14(3) (2012) 1-10.
2011年:
10. N. Wang, E. Karly, and R. Trivedi, “Eutectic-to-metallic glass transition in the Al-Sm system”,Acta Materialia, 59 (2011) 6604-6619.
11. N. Wangand R. Trivedi, “Limit of Steady-State Lamellar Eutectic Growth”,Scripta Materialia, 64 (2011) 848-851
12. W. J. Yao, Z P. Ye,N. Wang, X. J. Han, J. Y. Wang and X. X. Wen, “ Competitive Nucleation and Rapid Growth of Co-Si Intermetallic Compounds during Eutectic Solidification under Containerless Processing Condition”,Journal of Materials Science and Technology, 27(11) (2011) 1077-1082.
13. R. Trivedi,N. Wang, Y. E. Kalay, and M. Kramer, “Eutectic to glass transition in fragile system”,Solidification Science and Technology, Brunel University, London, December 2011, p.205.
2010年:
14. N. Wang, G. Li, W. J. Yao, and 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.
15. N. Wang, X. Wang, and W. J. Yao, “The Contribution of Diffusion Coefficient to the Eutectic Instability and Amorphous Phase Formation”,Mater. Sci. Forum, 654-656 (2010) 1355-1358.
16. W. J. Yao,N. Wang, “Monte Carlo Simulation of Thermophysical Properties for Al-Ce Liquid Alloys”,Mater. Sci. Forum, 654-656 (2010) 1404-1407.
17. 唐林峰,王楠,管強,姚文靜,“單晶合金雷射熔凝過程中晶向對單晶完整性的影響”,物理學報,11(2010)7941-7948。
18.王振中,王楠,姚文靜,“低擴散係數對Pd77Cu6Si17合金易非晶化的影響”,物理學報,10(2010)7431-7436。
2009年:
19. W. J. Yao andN. Wang, “Latent heats of fusion and crystallization behaviors of Co–Si binary alloys”,Journal of Alloys & Compound, 487 (2009), 354-357.
20.姚文靜,王楠,“Ni-15wt%Mo合金熔體熱物理性質的Monte Carlo模擬”,物理學報,58(2009) 457-462。
2008年:
21. N. Wang, “Effect of low diffusion coefficient on eutectic instability of Al-25wt%Sm alloy”,Chinese Physics Letters, 25(11) (2008) 4168-4170.
22. W. J. Yao andN. Wang, “Monte Carlo Simulation of Specific Heat of Liquid Ni-Mo alloys”,Journal of Physics D: Applied Physics,41 (2008) 225403 (5pp).
2007年及以前:
23. N. Wangand B. Wei, “Thermodynamic Properties highly undercooled liquid TiAl Alloy”,Applied Physics Letters,80 (19) (2002) 3515-3517.
24.N. Wang, X. J. Han and B. Wei, “Specific heat and thermodynamic properties ofundercooledliquid cobalt”,Applied Physics Letters, 80(1) (2002), 28-30.
25.N. Wang, S. Mokadem, M. Rappaz, and W. Kurz, “Solidification Cracking of Superalloy Single- and Bi-crystals”,Acta Materialia, 52 (2004) 3173-3182.
26.N. Wangand B. Wei, "Rapid Solidification of Undercooled Cu-Ge Peritectic Alloy",Acta Materialia, 48(8) (2000), 1931-1938.
27. X. J. Han,N. Wangand B. Wei, “Rapid Eutectic Growth under Containerless Condition”,Applied Physics Letters.81(4) (2002) 778-780.
28.X. J. Han,N. Wangand B. Wei, “Thermophysical Properties of Undercooled Liquid Cobalt”,Philosophical Magazine Letters,.82(8) (2002) 451-459.
29.N. Wang,H. Walker, S. David, and R. Trivedi, “Eutectic Instability and Phase Selection Solidification of Al-Sm alloys.”,Transactions of the Indian Institute of Metals, 60 (2-3) (2007) 69-72.
30. N. Wangand B. Wei,“Rapid Crystallization and growth mechanisms of Highly Undercooled Ag-Cu-Ge Ternary Alloy”,Journal of Crystal Growth, 247 (2003) 576-586.
31.N. Wangand B. Wei, “Phase Separation and Structural Evolution of Undercooled Fe-Sn Monotectic Alloy”,Materials Science and Engineering A. A345 (2003) 145-154.
32. N. Wangand B. Wei, "Rapid Solidification Behaviour of Ag-Cu-Ge Ternary Eutectic Alloy",Materials Science & Engineering A. 307(1-2) (2001): 80-90.
33. N. Wang, J. R. Gao and B. Wei, "Primary Phase Growth within Highly Undercooled Cu-Ge Eutectic Alloys",Scripta Materialia, 41(9) (1999) 959-965.
34. N. Wangand B. Wei, "Containerless Rapid Solidification of Ag28.1Cu41.4Ge30.5Ternary Alloy",Journal of Alloys and Compounds, 302(1-2) (2000) 274-280.
35. N. Wang, C. D. Cao and B. Wei, "Solidification Behaviors of Silver-Copper Alloys in Drop Tube",Advances in Space Research, 24(10) (1999) 1257-1261.
36. N. Wang, C. D. Cao and B. Wei, "Ternary Eutectic Growth in Microgravity Environment",Chinese Physics Letters, 16(3) (1999) 220-222.
37. N. Wang, J. Zhang, B. Wei and G. Z. Dai, "Rapid Dendritic Growth Investigated with Artificial Neural Network Method",Chinese Physics,9(7) (2000) 532-536.
38. N. Wang, W. J. Xie and B. Wei, "Physical Characteristics of Electromagnetic Levitation Processing",Acta Physica Sinica(Overseas Edition), 8(7) (1999), 503-513.
39. N. Wangand B. Wei, "Rapid Solidification of Hypereutectic Silver-Copper Alloy in Drop tube",Acta Metallurgica Sinica(English Letters), 12(3) (1999) 251-258.
40.N. Wangand B. Wei, "Droplet Undercooling During Containerless Processing in a Drop tube",Chinese Physics Letters, 21(6) (2004) 1120-1123.

相關詞條

熱門詞條

聯絡我們