王楠


的个人主页 http://teacher.nwpu.edu.cn/nanwang

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基本信息 The basic information

王楠

理学院

博士研究生毕业

博士

教授

材料科学与工程

nan.wang@nwpu.edu.cn

工作经历 Work Experience

2000.07-2001.:西北工业大学应用物理系,讲师;

2001.10-2003.3:瑞士洛桑联邦理工大学(EPFL),访问学者;

2003.4-至今:西北工业大学理学院,教授;

2005.2-2007.1:美国能源部Ames实验室,高级访问学者;

2010.11-2011.2:美国能源部Ames实验室,访问教授;

2011.7-2011.10:美国能源部Ames实验室,访问教授;

2012.7-2012.9:美国能源部Ames实验室,访问教授;

2013.1-2013.3:美国能源部Ames实验室,访问教授。 

教育经历 Education Experience

1994年:西北工业大学应用物理系,应用物理学工学学士;

1997年:西北工业大学应用物理系,材料物理工学硕士;

2000年:西北工业大学应用物理系,材料物理与化学工学博士。 

教育教学 Education And Teaching

研究方向:亚稳相变物理、高温合金凝固裂纹机制、软物质物理 。

荣誉获奖 Awards Information

陕西省科学技术三等奖(2014)

陕西省优秀留学回国人员(2009)

第5届陕西省青年科技奖(2004)

首批新世纪优秀人才(2004)

国家自然科学二等奖(2003)

全国优秀论文提名奖(2003)

陕西省外国智力引进先进工作者(2001)

陕西省科技进步一等奖(2000)

航空科技进步一等奖(1999)

航空科技进步一等奖(1998)

西安市科技进步一等奖(1998)

陕西省教委科技进步一等奖(1998)

国家发明二等奖(1997)。 

科学研究 Scientific Research

主持科研项目:

1. “单晶调控技术”,军委共性技术项目,(4140401),2016-2019.

2.“不同旋转轴条件下基体晶向对激光熔凝镍基单晶高温合金CET作用机制”,国家自然科学基金(51671160),2017.1-2020.12;

3.“金属间化合物强动力学效应对非晶转变的作用机制研究”,国家自然科学基金(51271149),2013.1-2016.12;

4.“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”,国家自然科学基金项目(50971104),2010.01-2012.12;

5.“低扩散系数对Al-R过共晶合金易非晶化内禀机理研究”,国家自然科学基金项目(50871090),2009.01-2011.12;

6.“极端条件下复相合金快速凝固研究”,国家自然科学基金项目(50101010),2002.01-2004.12;

7. “激光熔凝过程单晶高温合金CET转变及对凝固裂纹形成机制研究”, 航空科学基金项目(2013ZF53080),2013.10-2015.09;

8.“高性能Al基稀土合金的设计与制备”,陕西省国际合作项目(2011KW-10)2012.01-2013.12.

9.“激光熔凝DD3高温合金凝固裂纹形成机理研究”,航空科学基金项目(2008ZF53052),2008.10-2010.9;

10.“特定条件下的晶体形态稳定性及生长机制研究”,教育部新世纪优秀人才项目(NCET-04-0963),2004-2007;

11.“不混溶间隙合金的相选择机制研究”,人事部留学回国人员择优资助项目(2005CQ110001),2005.1-2005.12.

12.“调幅分解条件下相分离及层壳组织形成机制研究”,教育部留学回国人员启动基金(2004CJ110002),2004.11-2006-11.

学术成果 Academic Achievements

代表性论文


近期论文

  1. L. Wang, N. Wang*, N. Provatas*, Liquid channel segregation and morphology and their relation with hot cracking susceptibility during columnar growth in binary alloys, Acta Materialia, 126 (2017) 302-312.

  2. L. Wang, N. Wang*, Effect of substrate orientation on the columnar-to-equiaxed transition in laser surface remelted single crystal superalloys: Experimental investigation, Acta Materialia, 104 (2016) 250-258.

  3. L. Wang, N. Wang*,W. J. Yao, Y. P. Zheng, Effect of substrate orientation on the columnar-to-equiaxed transition in laser surface remelted single crystal superalloys, Acta Materialia, 88 (2015) 283-292.

  4. T. Q. Wen, W. J. Yao, N. Wang*, Correlation between the Arrhenius crossover and the glass forming ability in metallic glass, Scientific Reports, 7 (2017) 13164.

  5. L. Zhang, A. Mikhailovskaya, P. Yazhgur, F. Muller, F. Cousin, D. Langevin, N. Wang, A. Salonen, Precipitating Sodium Dodecyl Sulfate to Create Ultrastable andStimulable Foams, AngewandteChemie-International Edition, 54 (2015) 9533-9536.

  6. L. Zhang, Lili Tian, Huiling Du, S. Rouziere, N. Wang*, A. Salonen*, Foams Stabilized by Surfactant Precipitates: Criteria for Ultrastability, Langmuir, 33(20) (2017) 7305-7311.

  7. L. L. Tian, N. Wang*, Y. L. Peng, W. J. Yao, Strong kinetic effect of polyethylene glycol 6000 under directional solidification condition, Acta Physica Sinica, 659)(2016096401.

  8. P. Rong, N. Wang*, L. Wang, R. N. Yang, W. J. Yao, The influence of grain boudary angle on the hot cracking of single crystal superalloy DD6, Journal of Alloys and Compounds, 676 (2016) 181-186.

  9. N. Wang*, L. Zhang, Y. L. Peng, W. J. Yao, Composition-dependence of Core-Shell Microstructure formation in Monotectic Alloys under Reduced Gravity Conditions Journal of Alloys and Compounds, 663 (2016) 379-386.

  10. L. Zhang, A. Mikhailovskaya, D. Constantin, G. Foffi, J. Tavacoli, J. Schmitt, F. Muller, C. Rochas, N. Wang, D. Langevin, A. Salonen, Varying the counter ion changes the kinetics, but not the final structure of colloidal gels, Journal of Colloid and Interface Science, 463 (2016) 137-144.


2015年:

  1. L. Wang, N. Wang, W. J. Yao, Y. P. Zheng, Effect of substrate orientation on the columnar-to-equiaxed transition in laser surface remelted single crystal superalloys, Acta Materialia, 88 (2015) 283-292.

  2. W. J. Yao, R. N. Yang, N. Wang, Monte Carlo simulation of thermophysical properties of binary CoGd liquid alloys, Journal of Alloys and Compounds, 627 (2015) 410-414.

  3. L. Zhang, A. Mikhailovskaya, P. Yazhgur, F. Muller, F. Cousin, D. Langevin, N. Wang, A. Salonen, Precipitating Sodium Dodecyl Sulfate to Create Ultrastable and Stimulable Foams, Angewandte Chemie, 54 (2015) 9533-9536.

  4. W. J. Yao, N. Wang, J. H. Lee, Microstructure characteristics and effect of grain orientation on magnetic properties of Fe63Co32Gd5 alloy ribbons, Journal of Centre South University, 22 (2015) 2014-2019..

  5. W. J. Yao, Y. Y. Zhang, N. Wang, J. H. Lee, Rapid Solidification and Magnetic Properties of (Fe,Co)–(Fe,Co)17Gd2 Pseudo-Binary Eutectic Alloys, Journal of Nanoscience and Nototechnology, 15(3) (2015) 2579-2585.


 2014年:

  1. W. J. Yao, W. Sun, N. Wang, S. Z. Han, J. H. Lee, Nano-Eutectic Growth in Co-17.8 wt%Gd Alloy Ribbons and the Magnetostrictive Properties at Different Wheel Speeds, Journal of Nanoscience and Nototechnology, 14(11) (2014) 8572-8577.

  2. P. P. Li, Y. P. Zheng, Y. W. Wu, P. Qu, R. L. Yang, N. Wang, M. Z. Li, A nanoscale liquid-like graphene@Fe3O4 hybrid with excellent amphiphilicity and electronic conductivity, New Journal of Chemistry, 38(10) (2014) 5043-5051.

  3. Y. P. Zheng, R. L. Yang, F. Wu, D. W. Li, N. Wang, A. B. Zhang, A functional liquid-like multiwalled carbon nanotube derivative in the absence of solvent and its application in nanocomposites, RSC Advances, 4(57) (2014) 30004-30012.

  4. W. J. Yao, G. H. Bao, X. L. Niu, N. Wang, J. H. Lee, Growth characteristics of TiCxNy ceramics under laser melting conditions, Materials and Manufacturing Processes, 29 (2014) 715-720.

2013

  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, Z. P. Ye, N. Wang, J. H. Lee, Phase-field Simulation on the Heteroepitaxial Nucleation of (Fe,Co) Solid Solution on Facet Phase in Undercooled Liquid, Journal of Alloys and Compounds, 577 2013, 701-709.

  3. 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.

  4. Y. P. Zheng, A. B. Zhang, Y. M. Tan, N. Wang, and P. Y. Yu, Property-Structure Relationship of Titania Ionic Liquid Nanofluids, Soft Materials, 11 (2013) 315-320.

  5. W. J. Yao, X. L. Niu, L. Zhou, N. Wang, J. H. Lee, Competition Growth of a and b Phases in Ti-50 at.%Al Peritectic Alloy during the Rapid Solidificaiton by Laser Melting Technique, Acta Metallurgica Sinica (English Letters), 26(5) (2013) 523-532.


2012

  1. R. Trivedi and N. Wang, Theory of Rod Eutectic Growth under far from Equilibrium Conditions: Nanoscale Spacing and Transition to Glass, Acta Materialia, 60(2012) 3140-3152.

  2. 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).

  3. 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.

  4. W. J. Yao, J. S. Li, J. Y. Wang, and N. 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

  5. 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.

  6. 任群,王楠,张莉,王建元,郑亚萍,姚文静,调幅分解及形核对相分离作用机理研究,物理学报61 (19) (2012) 196401 (7 pages).

  7. 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:

  1. N. Wang, E. Karly, and R. Trivedi, Eutectic-to-metallic glass transition in the Al-Sm system, Acta Materialia, 59 (2011) 6604-6619.

  2. N. Wang and R. Trivedi, Limit of Steady-State Lamellar Eutectic Growth,Scripta Materialia, 64 (2011) 848-851

  3. 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.

  4. 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

  1. 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.

  2. 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.

  3. W. J. Yao, N. Wang, “Monte Carlo Simulation of Thermophysical Properties for Al-Ce Liquid Alloys”, Mater. Sci. Forum, 654-656 (2010) 1404-1407.

  4. 唐林峰,王楠,管强,姚文静,单晶合金激光熔凝过程中晶向对单晶完整性的影响物理学报1120107941-7948

  5. 王振中,王楠,姚文静,低扩散系数对Pd77Cu6Si17合金易非晶化的影响物理学报1020107431-7436


2009

  1. W. J. Yao and N. Wang, “Latent heats of fusion and crystallization behaviors of Co–Si binary alloys”, Journal of Alloys & Compound, 487 (2009), 354-357.

  2. 姚文静,王楠“Ni-15wt%Mo合金熔体热物理性质的Monte Carlo模拟物理学报58(2009) 457-462


 

2008

  1. N. Wang, “Effect of low diffusion coefficient on eutectic instability of Al-25wt%Sm alloy”, Chinese Physics Letters, 25(11) (2008) 4168-4170.

  2. W. J. Yao and N. 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

  1. N. Wang and B. Wei, “Thermodynamic Properties highly undercooled liquid TiAl Alloy”, Applied Physics Letters,80 (19) (2002) 3515-3517.

  2. N. Wang, X. J. Han and B. Wei, “Specific heat and thermodynamic properties ofundercooledliquid cobalt”, Applied Physics Letters, 80(1) (2002), 28-30.

  3. N. Wang, S. Mokadem, M. Rappaz, and W. Kurz, “Solidification Cracking of Superalloy Single- and Bi-crystals”, Acta Materialia, 52 (2004) 3173-3182.

  4. N. Wang and B. Wei, "Rapid Solidification of Undercooled Cu-Ge Peritectic Alloy", Acta Materialia, 48(8) (2000), 1931-1938.

  5. X. J. Han, N. Wang and B. Wei, “Rapid Eutectic Growth under Containerless Condition”, Applied Physics Letters.81(4) (2002) 778-780.

  6. X. J. Han, N. Wang and B. Wei, “Thermophysical Properties of Undercooled Liquid Cobalt”, Philosophical Magazine Letters,.82(8) (2002) 451-459.

  7. 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.

  8. N. Wang and B. Wei,“Rapid Crystallization and growth mechanisms of Highly Undercooled Ag-Cu-Ge Ternary Alloy”, Journal of Crystal Growth, 247 (2003) 576-586.

  9. N. Wang and B. Wei, “Phase Separation and Structural Evolution of Undercooled Fe-Sn Monotectic Alloy”, Materials Science and Engineering A. A345 (2003) 145-154.

  10. N. Wang and B. Wei, "Rapid Solidification Behaviour of Ag-Cu-Ge Ternary Eutectic Alloy", Materials Science & Engineering A. 307(1-2) (2001): 80-90.

  11. 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.

  12. N. Wang and B. Wei, "Containerless Rapid Solidification of Ag28.1Cu41.4Ge30.5Ternary Alloy", Journal of Alloys and Compounds, 302(1-2) (2000) 274-280.

  13. 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.



综合介绍 General Introduction

教授、博士、博导。教育部首批新世纪优秀人才,陕西省物理学会理事,陕西省青年科技奖获得者,陕西省优秀留学回国人员,国家自然科学基金、国家科技部及陕西省国际合作项目评审专家,Journal of Alloys and Compounds、Materials Science and Engineering B等国际期刊审稿人。先后主持国家自然科学基金等科研项目10余项,参加国家自然科学基金重点项目、863计划项目等20余项。发表论文90余篇,获国家级、省部级以上科研奖励6项,授权专利6项。2003年由讲师直接破格为教授。先后在瑞士洛桑联邦理工大学(EPFL)材料系和美国能源部Ames实验室做访问学者及访问教授。