宋武林

教授

宋武林,男,漢族,出生於中國,於1985年畢業於華中理工大學(現華中科技大學)金屬材料專業,獲工學學士學位,1988年獲碩士學位,1996年獲博士學位。

工作經歷


1998年-2001年在日本國立岩手大學從事博士后研究。1997 年晉陞副教授,2001年晉陞教授,現任中國材料研究學會理事;湖北省理化檢驗學會副理事長;湖北省電鏡學會常務理事。在材料激光表面改性、新型模具材料、納米材料製備與應用等研究方面取得了多項成果。獲省部級自然科學技術一等獎一項,國家級優秀論文獎等多項,獲國家發明專利一項,1998年被評為湖北省跨世紀青年學術骨幹,2002年入選湖北省新世紀高層次人才工程,發表學術論文100餘篇,其中40餘篇分別被SCI、EI收錄,發表的論文被國內外同行引用60餘次。

研究方向


1,納米材料製備及應用
2,材料激光加工理論及應用
3,新型模具材料及熱處理工藝研究
4,材料現代分析測試技術

成果介紹


近幾年在國外發表論文 1. Song wulin, Xie Changsheng………Effects of Co on the cracking susceptibility and the microstructure of Fe-Cr-Ni laser-clad layer, SURFACE & COATINGS TECHNOLOGY, 2001,V138,N2-3(APR16),P291-295. 2. Song Wulin, Xie Changsheng……Vacuum laser cladding and effect of Hf on the cracking susceptibility and the microstructure of Fe-Cr-Ni laser-clad layer, SURFACE & COATINGS TECHNOLOGY, 2000,V126,P76-80. 3. Song Wulin, Xie Changsheng……Cracking Susceptibility of a Laser-clad Layer as Related to the Melting Properties of the Cladding Alloy, SURFACE & COATINGS TECHNOLOGY, 1999, V115,P270-272. 4. Song Wulin, Xie Changsheng……Effect of Ni content on cracking susceptibility and microstructure of Laser-clad Fe-Cr-Ni-B-Si alloy, Surface and Coatings Technology 80(1996)251。 5. Song Wulin, Structure and strength of Multi-layered Foils, Fundamental Study and Application of Intelligent Nano And Microscopic Structure Materials by Field Control, p53-62, International Workshop on Fundamental Study and Application of Intelligent Nano And Microscopic Structured Materials by Filed Control, Sendai, Japan, 2000.8 6. Song Wulin, The Microwire Technique of Cu-Ag Alloy, 國際微線技術學術研討會,1999.年10月,岩手大學,日本,p1-8 7. 宋武林,越俊谷 淳一 等,圧延による銀ニッケル積層板の組織と磁性変化,日本金屬學會論文集,2000年秋期(第127回)大會,p34~44 8. 宋武林,越俊谷 淳一 等,圧延したNi-Ag(5:1) 積層板の強度と組織,日本金屬學會講演概要,2001年春期大會,p211. 9. Changsheng Xie, Mulin Hu, Yaming Sheng, Wulin Song. Oxidation reaction during laser cladding of SAE1045 carbon steel with SiC/Cu alloy powder. Journal of Materials Science, 36 (2001): 1501 – 1505。 10. L. Zhu, D.W. Zeng, J. Wu, W.L. Song, C.S. Xie, Synthesis and gas sensitivity of In-doped ZnO nanoparticles, Journal of Materials Science: Materials in Electronics,14(2003), 521-526.。 11. D.W. Zeng, C.S. Xie, B.L. Zhu, W.L. Song, A.H. Wang, Synthesis and character.stics of Sb-doped ZnO nanoparticles, Materials Scienceand engneering: B104(2003), 68-72.。 12. D.W. Zeng, C.S. Xie, B.L. Zhu, W.L. Song, Character.stics of Sb2O3 nanoparticles synthesized from antimony by vapor condensation method, Materials Letters :58(2004), 312-315. 13. A.H. Wang, W.Y. Wang, C.S. Xie, W.L. Song, D.W. Zeng,Microstructural characteristics of Al2O3-based refractory containing ZrO2 induced by CO2 laser melting,Applied surface science, 221 (2004) 293–301, 14. A.H. Wang, W.Y. Wang, C.S. Xie, W.L. Song, D.W. Zeng,CO2 laser-induced structure changes on an alumina-mullite- zirconia refractory,Applied Surface Science, v 233, n 1-4, Jun 30, 2004, p 244-251 15. A.H. Wang, W.Y. Wang, C.S. Xie, W.L. Song, D.W. Zeng,CO2 laser-induced structure changes on a zircon refractory,Applied Surface Science, v 227, n 1-4, 15 April 2004, p 104-13 16. A.H. Wang, W.Y. Wang, C.S. Xie, W.L. Song, D.W. Zeng,Microstructural features of an Al2O3-ZrO 2-SiO2 refractory material treated with CO2 laser melting,Materials Letters, v 58, n 22-23, September, 2004, p 2848-2851 17. D.W. Zeng, C.S. Xie, B.L. Zhu, W.L. Song, A.H. Wang, Oxygen Partial Pressure Effect on Synthesis and Characteristics of Sb2O3 Nanoparticles, Mater. Sci. Eng. A, 336, 332-337, 2004. 18. D.W. Zeng, C.S. Xie, B.L. Zhu, R. Jiang, X. Chen, W.L. Song, J.B. Wang, J. Shi, Controlled Growth of ZnO Nanomaterials via Doping Sb, J. Crystal Growth,266(2004)511-518 19. D.W. Zeng, C.S. Xie, B.L. Zhu, W.L. Song, A.H. Wang,,Investigation of gas sensitivity of Sb-doped ZnO nanoparticles,Materials Chemistry and Physics, v 89, n 1, 15 Jan. 2005, p 148-53 20. D.W. Zeng, C.S. Xie, B.L. Zhu, W.L. Song, A.H. Wang,,The gas-sensing properties of thick film based on tetrapod-shaped ZnO nanopowders,Materials Letters, v 59, n 8-9, April, 2005, p 1004-1007 21. Yong Jiang, Wulin Song, Changsheng Xie, Aihua Wang, Dawen Zeng, Mulin Hu, Electrical conductivity and gas sensitivity to VOCs of V-doped ZnFe2O4 nanoparticles, Materials Letters 60 (2006)

參考資料


宋武林教授教學評價:http://pinglaoshi.com/teacherId118435