王軼農

1980-09至1984-07 燕山大學（原東北重型機械學院）材料科學與工程系金屬材料與熱處理專業，獲工學學士學位；

1987-09至1990-03哈爾濱工業大學材料科學與工程系材料學專業，工學碩士；

1990-02至1996-07佳木斯大學材料學院講師/副教授；

1996-09至2000-02東北大學材料與冶金學院材料學專業，工學博士。

2000-03至 2002-01 大連理工大學材料工程系 博士后；

2002-02 至 2003-04 台灣中山大學材料科學研究所博士后研究員；

2003-05 2006-02 大連理工大學材料工程系 副教授；

2006-02 至 2006-08 台灣中山大學材料科學研究所 博士后研究員；

2006-09 至今 大連理工大學 材料科學與工程學院 副教授；

2007-07 至今 大連理工大學 材料科學與工程學院 博士生導師。

中國機械工程學會會員

遼寧省電子顯微鏡學會理事

中國體視學會材料科學分會理事

1．變形鎂合金基面傾轉織構形成機制與織構增韌，國家自然科學基金（50471069），2005-01至2007-12；

2．非同步軋制鎂合金織構特徵與力學性能，遼寧省自然科學基金（20042159），2005-01至2007-12；

3．多場偶合馬氏體相變及在新材料設計中的應用，國家自然科學基金重點項目（50531020），2005-01至2009-12；

4. Ni-Ti-Ta形狀記憶合金相變與生物力學性能，國家自然科學基金（50171015），2003-01至2005-12；

1. Y.N. Wang, J.C. huang, “The role of twinning and untwinning in yielding behavior in hor-extruded Mg-Al-Zn alloy”, Acta Mater., 2007, 55: 897-905.

2. Y.N. Wang, J.C. Huang, “Grain sizedependenceof yield strength in randomly textured Mg-Al-Zn alloy”, Materials Transactions, 2007, 48: 184-188.

3. Y.N. Wang, J.C. Huang, “Comparison of Grain Boundary Sliding in Fine Grained Mg And Al Alloys during Superplastic Deformation”, Scripta Mater., 48 (2003): 1117.

4. Y.N. Wang, J.C. Huang, “Texture Analysis in Hexagonal Materials (review)”, Mater. Chem. Phys, 81 (2003): 11.

5. Y.N. Wang, C.L. Lee, C.C. Huang, H.K. Lin and J.C. Huang, “Influence from Extrusion Parameters on High Strain Rate and Low Temperature Superplasticity of AZ Serious Mg-Based Alloys”, Mater. Sci. Fourm, 426-433 (2003): 2655.

6. Y.N. Wang, J.C. Huang, “Texture Characteristics and Anisotropic Superplasticity of AZ61 Magnesium Alloy”, Mater. Trans. JIM, 44 (2003): 2276.2281.

7. Y.N. Wang, J.C. Huang, “Transition of Dominant Diffusion Process During Superplastic Deformation in AZ61 Magnesium”, Metall. Mater. Trans., 35A (2004): 555.

8. Y.N. Wang, J.C. Huang, “SEM Investigation on Superplastic Deformation in Mg-AZ61 Alloy Sheet”, Materials Review, 18 (2004): 230.

9. Y.N. Wang and J.C. Huang, “Superplasticity Enhanced by Two-stage Deformation in a Hot-extruded AZ61 Alloy Magnesium Alloy”, J. Mater. Sci. Technol., Vol. 21, No. 1, 2005: 71-74.

10. Y.N. Wang and J.C. Huang, “Anisotropic Tensile Properties at room temperature andelevatedTemperature in Warm-extruded AZ61 Magnesium Alloy”, Materials Science Forum, Vols.495-497, 2005: 657-662.

11. Y.N. Wang, C.I. Chang, C.J. Lee, H.K. Lin and J.C. Huang, “Texture and week grain size dependence in friction stir processed Mg-Al-Zn alloy”, Scripta Mater., 2006, 55: 637-640.

12. C.I. Chang, Y.N. Wang, H.R. Pei, C.J. Lee, and J.C. Huang, “On the Hardening of Friction Stir Processed Mg-AZ31 Based Composites with 5-20% Nano-ZrO2 and Nano-SiO2 Particles” Materials Transactions, 2006, 47 (12): 2942-2949.

13. C. I. Chang, Y. N. Wang, H. R. Pei, C. J. Lee, X. H. Du, and J. C. Huang, “Microstructure and Mechanical Properties of Nano-ZrO2 and Nano-SiO2 Particulate Reinforced AZ31-Mg Based Composites Fabricated by Friction Stir Processing”, Key Eng Mater., vol. 351, 2007, pp. 114-119.

14. GONG Chang-wei, WANG Yi-nong, YANG Da-zhi, “Microstructure and Transformation Behavior of Ni50Ti45Ta5 Shape Memory Alloy”, Trans. Nonferrous Met. Soc. China, 14(2004): 952.

15. Gong Chang-wei , Wang Yi-nong, Yang Da-zhi, “Microstructure and transformation behavior of Ni50Ti45Ta5 Shape memory alloy”,. Transaction Nonferrous Metals Society of China. 2004, 14(5): 952-956.

16. Changwei Gong, Yan Li, Yinong Wang, Dazhi Yang, “Ab initio study for electronic and crystal structure of NiTi R-phase”, Modeling and Simulation in Materials Science and Engineering，2006, 14: 33-39.

17. C.W. Gong, Y.N. Wang, D.Z. Yang, “Phase transformation and second phases in ternary Ni-Ti-Ta shape memory alloys”, Materials Chemistry and Physics, 2006, 96(2-3): 183-187.

18. C.W. Gong, Y.N. Wang, D.Z. Yang, “Martensitic transformation of Ni50Ti45Ta5 shape memory alloy”. Journal of Alloys and Compounds, 2006, 419(1-2): 61-65.

19. Gong, CW, Wang, YN, Yang, DZ, “Ab initio study of the matensitic transformation of NiTi shape memory alloy”. Acta Physics Sinica, 2006, 55(6):2877-2881.

20. K.L Yang, J.C. Huang and Y.N. Wang, “Texture Evolution and Mechanical Anisotropy in Dual Phase Ti3Al Based Alloy Loaded at 700°C and 1000°C ”, Metall. Mater. Trans., 35A (2004): 3803.

21. K.L. Yang, J.C. Huang and Y.N. Wang, “Phase Transformation in b phase of Super a2 Ti3Al Base Alloys during Staticannealingand Superplastic Deformation at 700-1000°C ”, Acta Mater., 51 (2003): 2577-2594.

22. K.L. Yang, J.C. Huang and Y.N. Wang, “Phase Evolution and Mechanical Behavior of Super a2 Ti3Al Base Alloys during Superplastic Deformation at Lower Temperatures of 700-900°C” Key Eng. Mater., 233-236 (2003): 881.

23. S.H. WU, J.C. Huang, and Y.N. Wang, Evolution of Microstructure and Texture in Mg-Zn-Al Alloys during Electron-Beam and Gas Tungsten Arc Welding, Metall. Mater. Trans., 35 (2004): 2455-2469.

24. Cai YX, Liu YD, Wang YN, et al. “Analysis of texture formation and microstructure characteristics of cold rolled IF steel sheets”, MATERIALS SCIENCE FORUM 495-497: 411-415 Part 1&2 2005.

25. Wu BL, Shi AH, Zhang YD, Wang YN, et al. “The influence of texture and GBCD on stress corrosion and intergranular corrosion in 2024 aluminum alloy”, SOLID STATE PHENOMENA 105: 181-186 2005.

26. C.S. He, Y.D. Zhang, Y.N. Wang, X. Zhao, L. Zuo, C. Esling, “Texture and microstructure development in cold-rolledinterstitialfree (IF) steel sheet during electric field annealing”, Scripta Mater., 48 (2003): 737.

SCI收錄論文 26 篇，被引用 60 次，其中他引 28 次。

中國機械工業科學技術發明一等獎，

“鎂合金激光-氬弧複合熱源焊接新工藝”，

2005年（0509015）。