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李偉賢

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成大特聘教授兼工學院院長
姓名 李偉賢 (Woei-Shyan Lee)
組別 機械製造與材料組
教授室 機械系館五樓91506
分機 62174
傳真機 06-2352973
電子信箱 wslee@mail.ncku.edu.tw
個人網站 http://140.116.31.198/
學歷
  1. 法國南特大學 機研所 博士(法國 7601 - 7906 )
  2. 國立臺灣工業技術學院 機械研究所 碩士(中華民國 7109 - 7306 )
  3. 國立臺灣工業技術學院 機械學系 學士(中華民國 6909 - 7106 )
經歷
  1. 國立成功大學 主任秘書(9602-10001)
  2. 國立成功大學 機械系 系主任(9108-9407)
  3. 國立成功大學 特聘教授 (9308 - 迄今)
  4. 國立成功大學 教授 (8608 -9307 )
  5. 國立成功大學 副教授 (7908 - 8607)
  6. 法國南特大學高等機械工程學院 客座講師(7708-7907)
  7. 國立成功大學 講師 (7608 - 7908)
  8. 國立成功大學 助教 (7308 - 7607)
專長
  1. 動態撞擊力學
  2. 高速變形及破壞理論分析
  3. 金屬及複合材料工程
  4. 機械固力
  5. 動態材料機械特性分析
  6. 微觀結構分析(TEM/SEM)
教師研究介紹
服務
  1. 國立成功大學秘書室主任秘書
  2. 國立成功大學機械系系主任
  3. 國立成功大學機械系工廠主任
  4. 行政院國家發展基金管理會股權代表(華擎機械工業股份有限公司董事)
  5. 教育部高工延教班課程研修委員
  6. 經濟部智慧財產局專利審查委員
  7. 考試院公務人員升等考試命題委員
  8. 台南科學園區研發計劃審核委員
  9. 國科會固力學門複審委員
  10. 國家高速網路與計算中心南科分部籌備計畫分組召集人
  11. 財團法人聯合文教基金會董事兼學術小組召集人
  12. 財團法人成功機械文教基金會副董事長
  13. 中國機械工程學刊執行編輯
  14. 機械技師學刊編輯
  15. 中國機械工程學會理事
  16. 中國機械工程學會高雄市分會副總幹事
  17. 中國機械工程學會高雄市分會總幹事
  18. 中國機械工程學會高雄市分會理事
  19. 中國機械工程學會高雄市分會理事長
  20. 中國工程師學會高雄市分會理事
  21. 中國工程師學會理事
  22. 中國工程師學會、中國電機工程學會、中國機械工程學會高雄市分 八十九、九十、九十一年聯合年會籌備委員會副總幹事中國工程師學會
  23. 中國電機工程學會、中國機械工程學會高雄市分會   九十二年聯合年會籌備委員會總幹事
  24. 中國工程師學會、中國電機工程學會、中國機械工程學會高雄市分會九十三年聯合年會主席團
  25. 中國工程師學會成大學生分會指導老師
  26. 國立成功大學全校大學部論文比賽評審委員
  27. 全國大學論文比賽評審委員
  28. 成功大學機械系機械製造與材料組召集人
  29. 成功大學機械系教評會委員
  30. 成功大學機械系研究規劃委員會委員
  31. 成功大學機械系課程規劃委員會委員
  32. 成功大學機械系學術委員會召集人
  33. 工學院教師年度報告編輯委員會委員
  34. 國際期刊論文審查:

International Journal of Solids and Structures (U.S.A.);

Materials Science and Engineering A (U.S.A.);

Journal of Manufacturing Science and Engineering –ASME;

Journal of Materials Processing Technology (U.K.);

International Journal, Mechanics of Materials (U.S.A.);

Journal of Applied Polymer Science (U.S.A.);

Journal of Materials Science (U.S.A.); 

 

榮譽
  1. 中國機械工程學會會士
  2. 成功大學特聘教授(93學年度、96學年 、99學年)
  3. 成功大學工學院研究優良教師
  4. 中國工程師學會傑出工程教授獎
  5. 中國機械工程學會傑出工程教授獎
  6. 國立台灣科技大學傑出校友成就獎
  7. 國立台灣科技大學機械系傑出系友獎
  8. 國立岡山農工職校傑出校友成就獎
  9. 國立聯合大學傑出校友成就獎
  10. 台灣名人百科
  11. whos who in the world 世界名人錄
  12. 研究計畫主持費獎勵
  13. 行政院國科會優等研究獎
  14. 行政院國科會甲等研究獎

 

專利
著作

A.Journal Papers

 

  1. W. S. Lee*and Y. C. Huang (2016) “Mechanical properties and dislocation substructure of 6061-T6 aluminum alloy impacted at cryogenic temperatures,” Materials Transactions, Vol. 57, No.3, pp.344-350. (SCI, Impact factor: 0.787)
  2. Y. T. Tsai, C. R. Lin,W. S. Lee*, C. Y. Huang, J. R. Yang(2016)“Mechanical behaviour and microstructural evolution of nanostructured bainite under high-strain rate deformation by Hopkinson Bar” Scripta Materialia, 115, pp. 46-51. (SCI, Impact factor:3.15)
  3. W. S. Lee*and Y. C. Huang (2016) “Deformation behavior and microstructural evolution of 7075-T6 aluminum alloy at cryogenic temperatures,” Cryogenics, 79, pp. 26-34. (SCI, Impact factor: 0.787)
  4. W. S. Lee*and C. H. Kao (2016) “Hot deformation behaviour and microstructural evolution of biomedical Ti-13Nb-13Zr alloy in high strain rate range,” Materials Science and Engineering A, Vol. 677, pp. 230-239.(SCI, Impact factor: 2.108)
  5. W. S. Lee,and C. H. Hu (2016), “Dynamic flow behaviour and microstructural evolution of pure titanium during hot deformation,”Journal of the Chinese Society of Mechanical Engineers, Vol. 37, no. 5, pp. 10-20. (SCI, Impact factor: 0.274)
  6. W. S. Lee,and P. T. Liang (2016), “Constitutive modelling of impact flow behaviour of 7075-T6 aluminium alloy,”Journal of the Chinese Society of Mechanical Engineers, Vol. 37, no. 6, pp.19-25. (SCI, Impact factor: 0.274)
  7. W. S. Lee* and M. C. Hsu (2015) “Load dependence of nanoindentation behavior of phase transformation of annealed single-crystal silicon,” Materials Transactions, Vol. 56, No.5, pp.726-732. (SCI, Impact factor: 0.787)
  8. W. S. Lee*, and M. H. Liu (2015) “Effects of directional grain structure and strain rate on impact properties and dislocation substructure of 6061-T6 aluminum alloy,” Key Engineering Materials, Vol. 626, pp. 50-56. (EI)
  9. W. S. Lee and M. C. Hsu (2014) “Mechanical properties and dislocation substructure of Inconel 690 alloy impacted at cryogenic temperatures.” Materials Transactions,JIM, Vol. 55, No.11,pp. 1689-1697. (SCI, Impact factor: 0.787)
  10. W. S. Lee and H. C. Kao (2014) “High temperature deformation behavior of Haynes 188 alloy subjected to high strain rate loading,” Materials Science and Engineering A, Vol. 594, pp. 292-301. (SCI, Impact factor: 2.108)
  11. W. S. Lee and Z. C. Tang (2014) “Relationship between mechanical properties and microstructural response of 6061-T6 aluminum alloy impacted at elevated temperatures,” Materials and Design, Vol. 58, pp. 116-124. (SCI, Impact factor: 2.913)
  12. W. S. Lee, and M. H. Liu (2014) “Effects of directional grain structure on impact properties and dislocation substructure of 6061-T6 aluminum alloy,” Materials Science and Technology, Vol. 30, No. 7, pp. 756-765.  (SCI, Impact factor: 0.794)
  13. W. S. Lee*and C. W. Chen (2013) “High temperature impact properties and dislocation substructure of Ti-6Al-7Nb biomedical alloy,” Materials Science and Engineering A,2013, Vol. 576, pp. 91-100. (SCI, Impact factor: 2.101)
  14. W. S. Lee, and C. W. Chen (2013) “Dynamic mechanical properties and microstructure of Ti-6Al-7Nb biomedical alloy as function of strain rate,” Materials Science and Technology, Vol. 29, No. 9, pp. 1055-1064.  (SCI, Impact factor: 0.794)
  15. W. S. Lee,and Z. C. Tang (2013), “High temperature impact reformation and dislocation substructure of 6061-T6 aluminum alloy,”Journal of the Chinese Society of Mechanical Engineers, Vol. 34, no. 4, pp. 263-270. (SCI,Impact factor: 0.274)
  16. W. S. Lee, C.F. Lin, T. H. Chen and W. Z. Luo (2012), “High temperature deformation and fracture behavior of 316L stainless steel under high strain rate loading,”Journal of Nuclear Materials, Vol. 420, pp. 226-234(SCI, Impact factor: 1.279)
  17. W. S. Lee, T. H. Chen, C. F Lin and Z. Y. Li (2012) “Effects of Strain Rate and Temperature on Shear Properties and Fracture Characteristics of 316L Stainless Steel,” Materials Transactions, JIM, Vol. 53, No.3, pp.469-476. (SCI, Impact factor: 0.787)
  18. W. S. Lee, T. Y. Chan, (2012) “Microstructural Evolution and Mechanical Properties under High Strain Rate Testing of W-3.99Ni-1.71Fe Sintered by a Two-Stage Sintering Process,” Materials Transactions, JIM, Vol. 53, No.7, pp. 1318-1323. (SCI, Impact factor: 0.787)
  19. W. S. Lee, T. H. Chen C. F Lin and W. Z. Luo (2012) Impact Response and Microstructural Evolution of 316L Stainless Steel under Ambient and Elevated Temperature Conditions,”Metallurgical and Materials Transactions A, pp. 3998-4005(SCI, Impact factor: 1.545)   
  20. W. S. Lee*, C.F. Lin, T.H. Chen and H.W. Chen (2012) “Dynamic Shear Properties of Inconel 718 over wide temperature range,” Materials Transactions, JIM, Vol. 53, No.10, pp. 1758-1764.(SCI, Impact factor, 0.787)
  21. W. S. Lee*, C.F. Lin, T.H. Chen and H.W. Chen (2011) “Dynamic mechanical behaviour and dislocation substructure evolution of Inconel 718 over wide temperature range,” Materials Science and Engineering A,2011, Vol. 528, pp. 6279-6286. (SCI, Impact factor: 2.101)
  22. W. S. Lee, T. H. Chen, C. F. Lin and J. M. Chen (2011), “Nanoindentation Behaviour and Annealed Microstructural Evolution of Ni/Si Thin Film,”Materials Transactions, JIM, Vol. 52, No.7, pp.1374-1380. (SCI, Impact factor: 0.787)
  23. W. S. Lee, T. H. Chen, C. F. Lin and C. L. Wu (2011), “Microstructural Evolution of Nanoindented Ag/Si Thin-Film under Different Annealing Temperatures,”Materials Transactions, JIM, Vol. 52, No.10, pp.1868-1875. (SCI, Impact factor: 0.787)
  24. W. S. Lee, T. H. Chen C. F. Lin, and W. Z. Luo (2011), “Dynamic Mechanical Response of Biomedical 316L Stainless Steel as Function of Strain Rate and Temperature,”Bioinorganic Chemistry and Applications Vol. 2011, Article ID 173782. (SCI, Impact factor: 0.949)
  25. W. S. Lee*, C.F. Lin, T.H. Chen and H.W. Chen (2011) “Dynamic impact response of Inconel 718 alloy under low and high temperatures,” Materials Transactions, JIM, Vol. 52, No.9, pp.1734-1740. (SCI, Impact factor: 0.787)
  26. W. S. Lee, T. H. Chen, C. F Lin and M.S. Chen (2010) “Impact deformation behaviour and dislocation substructure of Al-Sc alloy” Journal of Alloys and Compounds Vol. 493, n1-2, pp. 580-589 (SCI, Impact factor: 2.135)
  27. W. S. Lee, C. F Lin, T. H. Chen and M. C. Young (2010) “High Temperature microstructural evolution of 304L SS as functions of prestrain and strain rate” Materials Science and Engineering A,. Vol. 527, pp.3127-3137 (SCI, Impact factor: 1.901)
  28. H. C. Hsu, Y. C. Lin, S. H. Wang,  F. H. Kao, W. C. Lee, J. R. Yang, P. W. Hsu, H. W. Yen, W. S. Lee (2010) “Inducement of bainite and carbide transformation from retained austenite based on a high strain rate” Scripta Materialia, Vol. 62, pp. 372-375, (SCI, Impact factor: 2.949)
  29. W. S. Lee, C.F Lin, T. H. Chen and M. C. Young (2010) “Effects of Pre-strain on High Temperature Impact Properties of 304L Stainless Steel” Journal of Materials Research, Vol. 25, No. 4, pp. 754-763 (SCI, Impact factor: 1.667)
  30. W. S. Lee, T. H. Chen and Ging-Ting Lu (2010) “Adiabatic shearing behaviour of unweldable Al-Sc alloy under extremely high shear loading” Materials Science and Technology, Vol. 26, No. 6, pp. 720-725.  (SCI, Impact factor: 0.794)
  31. W. S. Lee, T. H. Chenand S. L. Chang (2010) “Load effects on nanoindentation behaviour and microstructural evolution of single-crystal silicon”  Materials Transactions, JIM, Vol. 51, No. 7, pp. 1173-1177(SCI, Impact factor: 0.795)
  32. W. S. Lee, T. H. Chen and Ging-Ting Lu (2010) “Adiabatic shearing localisation in high strain rate deformation of Al-Sc alloy” Materials Transactions, JIM, Vol. 51, No. 7, pp. 1216-1221.(SCI, Impact factor: 0.795)
  33. W. S. Lee, T. H. Chen and Sian-Cing Huang (2010) “Impact deformation behaviour of Ti-6Al-4V alloy in the low-temperature regime”  Journal of Nuclear Materials, Vol. 402, pp. 1-7(SCI, Impact factor: 1.933)
  34. W. S. Lee, T. H. Chen, C. F. Lin and N. W. Lee (2010) “High Strain Rate Shear Deformation and Fracture Behaviour of Biomedical Titanium Alloy” Materials Science and Technology, Vol. 26, No. 9, pp. 1079-1087.  (SCI, Impact factor: 0.794)
  35. W. S. Lee, T.H. Chen, C.F. Lin and J.M. Chen (2010) “Phase transformation of Ni/Si thin films induced by nanoindentation and annealing” Applied Physics A-Materials Science & Processing, Vol. 100, pp. 1089-1096.  (SCI, Impact factor: 1.595)
  36. S. H. Wang, C. S. Huang, W. S. Lee, T. H. Chen, C. C. Wu, (2009) “Impact Deformation Behavior of Duplex and Superaustenitic Stainless Steels Welds by Split Hopkinson Pressure Bar”Metals and Materials International, Vol. 15, n16, pp. 1007-1015. (SCI, Impact Factor: 1.09)
  37. W. S. Lee, T. H. Chen, (2009), “The Strain Rate and Temperature effects on the Dynamic Properties of High-Strength Weldable Aluminum-Scandium (Al-Sc) Alloy,” Journal of Materials Research, Vol. 24, no1, pp. 198-211. (SCI, Impact factor: 1.667)
  38. W. S. Lee, T. H. Chen, (2009), “Comparative Study of Dynamic Impact Properties and Microstructures of Weldable and Unweldable Aluminum-Scandium (Al-Sc) Alloys,” Materials Science and Technology, Vol. 25, no. 6, pp. 711-725. (SCI, Impact factor: 0.794)
  39. S. T. Chiou, H. L. Tsai, W. S. Lee, (2009) “Impact mechanical response and microstructural evolution of Ti alloy under various temperatures,” Journal of Materials Processing Technology, Vol. 209, no 5, pp. 2282-2294.   (SCI, Impact factor: 1.420)
  40. W. S. Lee, T.Y. Liu and T. H. Chen (2009), “Nanoindentation behaviour and microstructural evolution of Au/Cr/Si thin films,” Materials Transactions, JIM, Vol. 50, No. 7, pp. 1768-1777 (SCI,  Impact factor: 0.795)
  41. W. S. Lee, C. Y. Liu and T. H. Chen (2009)“Adiabatic Shear Localization of Different Steels at High Strain Rates” Journal de Physique IV France, Vol. 137, pp.1117-1123 (SCI, Impact factor: 0.291)
  42. W. S. Lee,(2009) “Impact mechanical response and microstructural evolution of Ti alloy under various temperatures” Journal of Materials Processing Technology, Vol. 209, pp. 2282-2294 (SCI, Impact factor: 1.420)
  43. H,C. Hsu, Y.C. Lin, S.H. Wang, W.C. Lee, F.H. Kao, J.R. Yang and W.S. Lee, (2009),“High Strain Rate Induces Bainite and Carbide Transformation from Retained Austenite,” Scripta Materialia, (Accepted) (SCI, Impact factor: 2.949)
  44. W.Y. Hsiao, S.H. Wang, C.Y. Chen, J.R. Yang and W.S. Lee, (2008) “Effects of Dynamic on Mechanical Properties and Microstructure of Special Stainless Steel Weldments” Materials Chemistry and Physics, Vol. 111, pp. 172-179.(SCI, Impact factor: 1.799)
  45. W. S. Lee,T. H. Chen, (2008), “Dynamic deformation behaviour and microstructural evolution of high-strength weldable aluminum scandium (Al-Sc) alloy”, Materials Transactions, JIM, Vol. 48, n6, pp. 1284-1293. (SCI, Impact factor: 0.753)
  46. W. S. Lee, and T. H. Chen (2008),The Effects of Strain Rate and Temperature on theDynamic Mechanical Behaviour and Microstructural Evolution of Aluminum-Scandium (Al-Sc) Alloy,”Materials Science and Technology  Vol. 24, No. 10, pp. 1271-1282.(SCI, Impact factor: 0.894)
  47. W. S. Lee, T. H. Chen and H. H. Hwang (2008),Impact response and microstructural evolution of biomedical titanium alloy under various temperatures,”Metallurgical and Materials Transactions A, Vol. 39A, pp. 1435-1448  (SCI, Impact factor: 1.389)   
  48. W. S. Lee, C. F. Lin, T. H. Chen and H. H. Hwang (2008) “Effects of strain rate and temperature on mechanical behaviour of Ti-15Mo-5Zr-3Al alloy” Journal of the Mechanical Behavior of Biomedical Materials, Vol. 1, No. 4, pp. 336-344(SCI,Impact factor: 3.176) 
  49. W. S. Lee, C. F. Lin, T. H. Chen and H. H. Hwang (2008) “The strain rate and temperature dependence of microstructural evolution of Ti-15Mo-5Zr-3Al alloy” Journal of Material Science, Vol. 43, pp. 1568-1575  (SCI, Impact factor: 1.181)
  50. W. S. Lee, C. F. Lin, T. H. Chen and H. H. Hwang (2008) “High Strain Rate Deformation of Ti-15Mo-5Zr-3Al Alloy Over a Wide Temperature Range” Material Science and Technology,  Vol. 24, pp.15-25(SCI, Impact factor: 0.894) 
  51. W. S. Lee, C. F. Lin, T. H. Chen and H. H. Hwang (2008) “Correlation of dynamic impact properties with adiabatic shear banding behaviour in Ti-15Mo-5Zr-3Al alloy,”Materials Science and Engineering A, Vol. 475, pp.172-184.(SCI, Impact factor: 1.806) 
  52. W. S. Lee, F. J. Fong (2008), ”Microstructural study of annealed gold-silicon thin films under nanoindentation,”Materials Science and Engineering A, Vol. 475, pp. 319-326.  (SCI, Impact factor: 1.806) 
  53. W. S. Lee, C. Y. Liu and T. H. Chen (2008), “Adiabatic shearing behaviour of different steels under extreme high shear loading,” Journal of Nuclear Materials, Vol. 374, pp. 313-319. (SCI, Impact factor: 1.501)
  54. W. S. Lee,C. Y. Liu and Po-Kai Wang, (2008), “Correction of Wave Dispersion Effect in Split-Hopkinson Pressure Bar System Using Discrete Fourier Transformation,”Journal of the Chinese Society of Mechanical Engineers  , Vol. 29, no. 5, pp. 389-396. (SCI, EI)
  55. W. S. Lee, F. J. Fong, (2008) “Effects of nanoindentation depth and annealing temperature on microstructural evolution of Au/Cr/Si thin films” Journal of the Chinese Society of Mechanical Engineers , Vol. 29, no. 4, pp. 281-287. (SCI, EI)
  56. W. S. Lee,Te-Yu Liu, (2007)“Effect of annealing temperature on microstructure of nanoindented Au/Cr/Si thin films”Nanotechnology, 18, 335701. (SCI, Impact factor: 3.31)
  57. W. S. Lee, F. J. Fong, (2007) ”Eutectic and Amorphous Phase Formation at Au/Cr/Si Thin Film Interface by Nanoindentation and Annealing,”Materials Transactions, JIM,Vol. 48, No. 10, pp.2650-2658. (SCI, Impact factor: 1.018)
  58. S.T. Chiou, H.L. Tsai and W.S. Lee, (2007), “Effects of strain rate and temperature on the deformation and fracture behaviour of Titanium alloy”Materials Transactions, JIM, Vol. 48, No. 9, pp. 2525-2533.(SCI, Impact factor: 1.018) 
  59. W. S. Lee,T. H. Chen and Q. J. Gon (2007), “Dynamic Shear Behaviour of Unweldable Aluminum-Scandium (Al-Sc) Alloy” Materials Transactions, JIM, Vol. 48, No. 3, pp. 200-509. (SCI, Impact factor: 1.018)
  60. W. S. Lee, C. F. Lin, C. Y. Liu and C. W. Cheng (2007), ”Effects of strain rate and welding current mode on the microstructural properties of SUS 304L PAW welds,”Journal of Materials Processing Technology, Vol. 183, pp. 183-193. (SCI, Impact factor: 0.816)
  61. W.S Leeand T. Y. Chan, (2007), “The effects of molybdenum content on the dynamic properties of tungsten-based heavy alloys,” Materials Science Forum, Vol.534-536, pp.1293-1296.
  62. W. S. Lee,C. F. Lin and T. J. Liu, (2007), “Impact and fracture response of sintered 316L stainless steel subjected to high strain rate loading,” Materials Characterization, Vol. 58, No. 4, pp.363-370. (SCI, Impact factor: 0.932)
  63. W. S. Leeand B. K. Wang, (2007), “High strain rate mechanical properties of austenitic manganese steel,” Material Science and Technology, Vol. 23, No. 2, pp.151-157. (SCI, Impact factor: 0.713) 
  64. W. S. Lee, C. F. Lin and Y. C. Lin, (2006), “Dynamic deformation and failure behaviour of Al-Sc alloy under shear loading,” Journal de Physique IV France, Vol. 134, pp.965-970. (SCI, Impact factor: 0.315)
  65. W. S. Leeand T. J. Liu, (2006), “Strain Rate Dependence of Impact Properties of Sintered 316L Stainless Steels,” Journal of Nuclear Materials, Vol. 359, pp. 247-257 (SCI, Impact factor: 1.261)  
  66. W. S. Lee,C. Y. Liu, (2006), “The effect of temperature and strain rate on the dynamic flow behaviour of different steels”, Materials Science and Engineering A, A426, pp. 101-113. (SCI, Impact factor: 1.49)
  67. W. S. Lee,C. H. Hsu, (2006), “ Dependence of ImpactDeformation Behaviour of Fe-2Ni Sintered Alloy onStrain Rate and Sintered Density”,Material Science and Technology, Vol. 22, No. 12, pp. 1431-1443. (SCI, Impact factor: 0.677)
  68. W. S. Lee,C. C. Chiu, (2006), “Deformation and Fracture Behaviour of 316L Sintered Stainless Steel under Various Strain Rate and Relative Sintered Density Conditions”, Metallurgical and Materials Transactions A, Vol. 37A, pp. 3685-3696.(SCI, Impact factor: 1.366)
  69. W. S. Lee,T. H. Chen, (2006), “Dynamic Mechanical Response and Microstructural Evolution of High Strength Aluminum-Scandium (Al-Sc) Alloy”, Materials Transactions, JIM, Vol. 47, No. 2, pp. 355-363. (SCI, Impact factor: 0.927)
  70. W. S. Lee,Y. C. Lin, (2006), “Strain rate and temperature dependence of the dynamic shear properties of Al-Sc alloy”, Materials Science and Technology, Vol. 22, No. 5, pp. 571-582. (SCI, Impact factor: 0.677)  
  71. W. S. Lee,T. H. Chen, (2006), “Rate-dependent deformation and dislocation substructure of Al-Sc alloy”, Scripta Materialia, Vol. 54, pp. 1463-1468. (SCI, Impact factor: 2.161)
  72. W. S. Lee, C. F. Lin and S. Z. Hwang, (2006), “Effect of Temperature and Strain Rate on the Shear Properties of Ti-6Al-4V Alloy,”Proc. Instn. Mech. Engrs. Part C: Journal of Mechanical Engineering Science,Vol. 220, pp. 127-136. (SCI, Impact factor: 0.329)
  73. W. S. Leeand B. K. Wang, (2006), “A Study of the Impact Deformation and Fracture Behaviour of Austenitic Manganese Steel,” Metals and Materials International, Vol. 12, No.6, pp. 459-466. (SCI, Impact factor: 1.025)
  74. W. S. Leeand J. C. Chang, (2005), “The Influence of Drawing Passes on Mechanical Properties of Copper Wires,”Journal of Manufacturing Science and Engineering–ASME, (Accepted) (SCI,Impact factor: 0.532)
  75. W. S. Lee, C. F. Lin, C. Y. Liu and C. W. Cheng (2005), “Strain Rate and Welding Current Mode Effects on the Microstructure Evolution of Plasma Arc Welded 304L Stainless Steel,” Journal of Materials Processing Technology, (in press). (SCI, Impact factor: 0.592)
  76. W. S. Lee,C. Y. Liu and T. N. Sun, (2005), “Dynamic Impact Response and Microstructural Evolution of Inconel 690 Super Alloy at Elevated Temperatures,” International Journal of Impact Engineering, Vol. 32/1-4, pp. 210-223. (SCI, Impact factor: 0.766)
  77. W. S. Leeand C. Y. Liu, (2005), ”Comparison of Dynamic Compressive Flow Behaviour of Mild and Medium Steels over Wide Temperature Range, ”Metallurgical and Materials Transactions A, Vol. 36A, pp. 3175-3186.(SCI, Impact factor: 1.232)
  78. W. S. Leeand C. Y. Liu, (2005), “Dynamic Compressive Flow Behaviour of S15C Low Carbon Steel Over Wide Temperature Range,” Materials Science and Technology, Vol. 21, No. 9, pp.1083-1093 (SCI, Impact factor: 0.639)
  79. W. S. Leeand S. K. Lee, (2005), “The Estimation of Fire Location and Heat Release Rate by Using Sequential Inverse Method,” Journal of the Chinese Society of Mechanical Engineers, Vol. 26, No. 2, pp. 199-205.
  80. W. S. Lee,C. F. Lin and B. T. Chen, (2005), “Tensile Properties and Microstructural Aspects of 304L Stainless Steel Weldments as a Function of Strain Rate and Temperature,” Proc. Instn. Mech. Engrs. Part C: Journal of Mechanical Engineering Science, Vol. 219, pp. 439-451. (SCI, Impact factor: 0.277)
  81. W. S. Leeand S. Z. Huang, (2005), “Deformation and Failure Behaviour of Ti-6Al-4V Alloy under High Rate Shear Loading,” WIT Transactions on Modeling and Simulation, Vol. 40, pp. 229-238.
  82. W. S. Leeand J. K. Chou, (2005), “The Effect of Strain Rate on the Impact Behaviour of Fe-2 mass% Ni Sintered Alloy,” Materials Transactions, JIM, Vol. 46, No. 4, pp. 805-811. (SCI, Impact factor: 1.103)
  83. W. S. Lee, C. F. Lin and F. T. Tzeng (2005), ”Mechanical Properties of 304L Stainless Steel SMAW Joint Under Dynamic Impact Loading,” Journal of Materials Science, Vol. 40, pp. 4839-4847. (SCI, Impact factor: 0.901)  
  84. S. T. Chiou, W. C. Cheng, and W. S. Lee (2005), “Strain Rate Effects on the Mechanical Properties of a Fe-Mn-Al Alloy under Dynamic Impact Deformations,” Materials Science and Engineering A, Vol. 392, pp. 156-162. (SCI, Impact factor: 1.347)
  85. C. S. Huang, S. H. Wang, W. S. Lee, T. H. Chen and C. Lien, (2005), “Dynamic Impact Behavior and Ferrite Variation of Special Stainless Steels,” Scripta Materialia, Vol. 52, pp. 843-849. (SCI, Impact factor: 2.228)
  86. W. S. Leeand C. Y. Liu, (2004), “Influence of Carbon Content and Strain-rate Effect on Impact Behaviour in Steel,” Journal of the Chinese Society of Mechanical Engineers, Vol. 25, No. 6, pp. 493-501.
  87. S. T. Chiou, W. C. Cheng, and W. S. Lee (2004), “The Analysis of the Microstructure Changes of a Fe-Mn-Al Alloy under Dynamic Impact Tests”, Materials Science and Engineering A, Vol. 386, pp. 460-467. (SCI, Impact factor: 1.445)
  88. W. S. Lee, C. Y. Liu and T. N. Sun (2004),“Plastic Flow Behaviour of Inconel 690 Super Alloy Under Compressive Impact Loading”,Materials Transactions, JIM, Vol. 45, No. 7, pp. 2339-2345. (SCI, Impact factor: 1.12)
  89. W. S. Lee, C. F. Lin, C. Y. Liu, and F. T. Tzeng (2004), “Impact Properties of 304L Stainless Steel GTAW Joint Evaluated by High Strain Rate of Compression Tests”, Journal of Nuclear Materials, Vol. 335, pp. 335-344. (SCI, Impact factor: 1.448)
  90. W. S. Lee, C. F. Lin, C. Y. Liu and J. I. Cheng (2004), “Dynamic and Failure Response of 304L Stainless Steel SMAW Joint Under Dynamic Shear Loading”, Materials Science and Engineering A, Vol. 381, pp. 206-215. (SCI, Impact factor: 1.445)
  91. W. S. Leeand C. Y. Liu, (2004), “Dynamic Compressive Deformation Behaviour of S50C Medium Carbon Steel,” Materials Science and Technology, Vol. 20, pp. 919-924. (SCI, Impact factor: 0.639)
  92. W. S. Lee, C. Y. Liu and T. N. Sun (2004), “Deformation Behaviour of Inconel 690 Super Alloy Evaluated by Impact Test”, Journal of Materials Processing Technology, Vol. 153, pp. 219-225. (SCI, Impact factor: 0.578)
  93. W. S. Lee, C. F. Lin, C. Y. Liu and C. W. Cheng (2004), “The Effects of Strain Rate and Welding Current Mode Effects on the Impact Response of Plasma Arc Welded 304L Stainless Steel”, Metallurgical and Materials Transactions A, Vol. 35, No. 5, pp. 1501-1515. (SCI, Impact factor: 1.308)
  94. W. S. Lee, H. C. Shen (2004) “Comparisons of Deformation and Fracture Behaviour of PC/ABS and ABS under Dynamic Shear Loading”, Materials Science and Technology, Vol. 20, pp. 8-15. (SCI, Impact factor: 0.639)  
  95. W. S. Lee, C. F. Lin, C. Y. Liu and F. T. Tzeng  (2003),“Microstructure Evolution of 304L Stainless Steel GTAW Joints Subjected to High-Velocity Impact Loading,” Journal of The Chinese Society of Mechanical Engineers, Vol. 24, No.5, pp. 479-488
  96.  W. S. Lee, J. I. Cheng, C. F. Lin, and C. Y. Liu (2003), “Dynamic Mechanical Properties and Fracture Behaviour of 304L Stainless Steel GTAW Joint in Shear Conditions”, Materials Transactions, JIM, Vol. 44, No. 12, pp. 2637-2645. (SCI, Impact factor: 1.159)
  97. W. S. Lee, and S. T. Chiou (2003), “Plastic Deformation and Fracture Response of 304 Stainless Steel Subjected to Dynamic Shear Loading”, Materials Science and Technology, Vol. 19, pp. 1266-1272. (SCI, Impact factor: 0.688)
  98. W. S. Lee, H. L. Lin (2003), “The Strain Rate Dependence of Deformation and Fracture Behaviour of Acrylonitrile-Butadiene-Styrene (ABS) Copolymer in Impact Test”, Fracture of Polymers, Composites and Adhesives, Vol. 22, pp.67-74. (SCI)
  99. W. S. Lee, C. F. Lin, C. Y. Liu and M. H. Chiang (2003), “A Comparison of the Dynamic Shear Properties and Fracture Behaviour of Continuous and Pulsed Current Plasma Arc Weldments of 304L Stainless Steel“, Journal de Physique IV France, Vol. 110, pp.81-86. (SCI, Impact factor: 0.319)
  100. W. S. Lee, and T. H. Chen (2002), “Plastic Deformation and Fracture Characteristics of High-Mn Hadfield Steel Subjected to High Velocity Impact Loading”, Proc. Instn. Mech. Engrs. Part C: Journal of Mechanical Engineering Science, Vol. 216, pp. 971-982. (SCI, Impact factor: 0.226)
  101. W. S. Lee, and C. F. Lin (2002), “Comparative Study of Impact Response and Microstructure of 304L Stainless Steel With and Without Prestrain”, Metallurgical and Materials Transactions A, Vol. 33A, pp. 2801-2810. (SCI, Impact factor: 1.219)
  102. W. S. Lee, and C. F. Lin (2002), “Effects of Prestrain and Strain Rate on the Dynamic Deformation Characteristics of 304L Stainless Steel: Part II. Microstructural Study”, Materials Science and Technology, Vol. 18, pp. 877-884. (SCI, Impact factor: 0.686)
  103. W. S. Lee, and C. F. Lin (2002), “Effects of Prestrain and Strain Rate on the Dynamic Deformation Characteristics of 304L Stainless Steel: Part I. Mechanical Behaviour”, Materials Science and Technology, Vol. 18, pp. 869-876. (SCI, Impact factor: 0.686)
  104. W. S. Lee, H. L. Lin (2002), “The Response of Acrylonitride-Butadiene-Styrene (ABS) Copolymer to Compressive Loading over a Wide Range of Strain Rates”, Journal of The Chinese Society of Mechanical Engineers, Vol. 22, No. 1, pp. 45-53.
  105. W. S. Lee, C. F. Lin and H. C. Shen (2001), “Shear Deformation and Fracture Behaviour of Polycarbonate/Acrylonitrile-Butadiene-Styren Blend at High Strain Rates”, Plastics, Rubber & Composites, Vol. 30, No. 10, pp. 484-489.(SCI, Impact factor: 0.271)
  106. W. S. Lee, and C. F. Lin (2001), “Effects of Prestrainning on the Impact Response and Twinning Structure of 304L Stainless Steel”, Materials Transactions, JIM, Vol. 42, No. 10, pp. 2080-2086. (SCI, Impact factor: 1.056)
  107. W. S. Lee, C. H. Lai and S. T. Chiou (2001),”Numerical Study on Perforation Behaviour of 6061-T6 Aluminum Metal Matrix Composite”, Journal of Materials Processing Technology, Vol. 117, pp. 125-131. (SCI, Impact factor: 0.255) 
  108. W. S. Lee, L. W. Chen and L. T. Yeh (2001), “The Influence of Strain Rate and Temperature on the Deformation Behaviour of 63Sn/37Pb and 60Sn/40Pb Solder Alloys”, Materials Transactions, JIM, Vol. 42, No. 4, pp. 686-690. (SCI, Impact factor: 1.056)
  109. W. S. Lee, C. F. Lin (2001), “Impact Properties and Microstructure evolution of 304L Stainless-Steel”, Materials Science and Engineering A, A308, pp. 124-135. (SCI, Impact factor: 0.978)
  110. W. S. Lee, W. C. Sue (2001), “The Rate Dependent Deformation of Carbon Fiber Reinforced Aluminum-Lithium Metal Matrix Composite”, Materials Science and Technology, Vol. 17, pp. 497-504. (SCI, Impact factor: 0.616)
  111. W. S. Lee,(2000), “High Speed Impact Response of Carbon Fiber Reinforced Aluminum-Lithium Matrix Composite”, Engineering Science & Technology Bulletin, National Science Council, Vol. 44, pp. 63-67.
  112. W. S. Lee, C. F. Lin (2000), “The Morphologies and Characteristics of Impact-induced Martensite in 304L Stainless Steel”, Scripta Materialia, Vol. 43, pp. 777-782. (SCI, Impact factor: 0.923)
  113. W. S. Lee, W. C. Sue, S. T. Chiou (2000), “Effect of Reinforcement Orientation on the Impact Fracture of Carbon Fiber Reinforced 7075-T6 Aluminum Metal Matrix Composite”, Materials Transactions, JIM, Vol. 41, No. 8, pp. 1055-1063. (SCI, Impact factor: 0.923)
  114. W. S. Lee, W. C. Sue, C. F. Lin (2000), “The Effect of Temperature and Strain Rate on The Properties of Carbon Fiber Reinforced 7075 Aluminum Alloy Metal Matrix Composite”, Composites Science and Technology, Vol. 60, No. 10, pp. 1975-1983. (SCI, Impact factor: 0.675)
  115. W. S. Lee, S. T. Chang, C. F. Lin (2000), “Plastic Flow of Tungsten-based Composite Under Hot Compression”, Journal of Materials Processing Technology, Vol. 100, pp. 123-130. (SCI, Impact factor: 0.237)
  116. W. S. Lee, W. C. Sue, C. F. Lin, C. J. Wu (2000), “The Strain Rate and Temperature Dependence of The Dynamic Impact Properties of 7075 Al Alloy”, Journal of Materials Processing Technology, Vol. 100, pp. 116-122. (SCI, Impact factor: 0.237)
  117. W. S. Lee, W. C. Sue (2000), “Dynamic Impact and Fracture Behaviour of Carbon Fiber Reinforced 7075 Al Metal Matrix Composite”, Journal of Composite Materials, Vol. 34, No. 21, pp. 1821-1841. (SCI, Impact factor: 0.832)
  118. W. S. Lee, J. C. Shyu and S. T. Chiou (2000), “Effect of Strain Rate on the Impact Response and Dislocation Substructure of 6061-T6 Aluminum Alloy”, Scripta Materialia, Vol. 42, pp. 51-56. (SCI, Impact factor: 0923) 
  119. W. S. Lee, J. C. Shyu (1999), “Dynamic Impact Response and Dislocation Substructure of 6061 Aluminum Alloy”, accepted by Journal of Materials Science. (SCI, Impact factor: 0.786) 
  120. W. S. Lee, C. F. Lin (1999), “Tensile Properties and Failure Characteristics of Acrylonitrile-Butadine-Styrene Subjected to Low and High Strain Rates, accepted by International Journal of Polymer Engineering and Science. (SCI, Impact factor: 1.224)
  121. W. S. Lee, W. C. Sue, C. F. Lin, C. J. Wu (1999), “Effect of Aging on High Strain Rate and High Temperature Properties of 7075 Aluminium Alloy”, Materials Science and Technology, Vol. 15, No. 12, pp. 1379-1386. (SCI, Impact factor: 0.683) 
  122. W. S. Lee, T. T. Su (1999), “Mechanical Properties and Microstructural Features of AISI 4340 High Strength Alloy Under Quenched and Tempered Conditions,” Journal of Materials Processing Technology, Vol. 87, pp. 198-206. (SCI, Impact factor: 0.196) 
  123. W. S. Lee, C. C. Hwang, S. Lin and H. S. Chu (1999), “Nonlinear Diffusion-Induced Stresses in a Long Bar of Square Cross Section”, International Journal of Solids and Structures, Vol. 36, pp. 269-284. (SCI, Impact factor: 0.971)
  124. W. S. Lee, G. L. Xiea, C. F. Lin (1998), “The Strain Rate and Temperature Dependence of the Dynamic Impact Response of Tungsten Composite”, Materials Science and Engineering A, A257, pp. 256-267. (SCI, Impact factor: 0.943)
  125. W. S. Lee, C. F. Lin, G. L. Xiea (1998), “Dynamic Shear Deformation and Fracture Behaviour of Pure Polycrystalline Tungsten”, Materials Science and Engineering A, A247, pp. 102-112.(SCI, Impact factor: 0.943)
  126. W. S. Lee, C. F. Lin (1998), “High Temperature Deformation Behaviour of Ti-6Al-4V Alloy Evaluated by High Strain Rate of Compression Tests”,Journal of Materials Processing Technology, Vol. 75, pp. 127-136. (SCI, Impact factor: 0.196)
  127. W. S. Lee, C. F. Lin (1998), “Plastic Deformation and Fracture Behaviour of Ti-6Al-4V alloy Loaded with High Strain Rate Under Various Temperatures”,Materials Science and Engineering A, A241, pp. 48-59. (SCI, Impact factor: 0.943)
  128. W. S. Lee, C. F. Lin (1997), “Adiabatic Shear Fracture of Titanium Alloy Subjected to High Strain and High Temperature Loadings”,Journal de Physique IV France, colloque C3, Supplément au Journal de Physique III d’août, pp. C3-855-C3-860. (SCI, Impact factor: 0.381)
  129. W. S. Lee, M. T. Lin (1997), "The Effects of Strain Rate and Temperature on Compressive Deformation Behaviour of Ti-6Al-4V Alloy",Journal of Materials Processing Technology, Vol. 71, pp. 235-246. (SCI, Impact factor: 0.196)
  130. W. S. Lee, G. W. Yeh (1997), "The Plastic Deformation Behaviour of AISI 4340 Alloy Steel Subjected to High Temperature and High Strain Rate Loading Conditions", Journal of Materials Processing Technology, Vol. 71, pp. 224-234. (SCI, Impact factor: 0.196) 
  131. W. S. Lee, S. T. Chiou (1996), "The Influence of Loading Rate on Shear Deformation Behaviour of Tungsten Composite",Composites: Part B, 27B, pp. 193-200. (SCI, Impact factor: 0.436)
  132.  W. S. Lee, H. F. Lam (1996), "The Deformation Behaviour and Microstructure Evolution of High Strength Alloy Steel at High Rate of Strain",Journal of Materials Processing Technology, Vol. 57, pp. 233-240. (SCI, Impact factor: 0.196) 
  133. W. S. Lee, S. C. Hwang (1995), "The Analysis and Simulation of Dynamic Impact Behaviours of High Strength Alloy Steel",The Chinese Journal of Mechanics (Journal of Mechanics), Vol. 3, pp. 253-260. (SCI, Impact factor: 0.531)
  134. W. S. Lee(1995), "The Effects of Strain Rate on Mechanical Behaviour and Microstructure Variations of Tungsten Single Crystal",Journal of The Chinese Society of Mechanical Engineers, Vol. 16, No. 2, pp. 180-186.
  135. W. S. Lee, W. S. Lin (1995), "The Analysis of Effects of Strain Rate and Temperature on Plastic Deformation Behaviour of Titanium Alloy", Chinese Journal of Mining and Metallurgy, Vol. 39, No. 2, pp. 180-186.
  136. W. S. Lee, S. T. Chiou (1995), "Strain Rate and Temperature Effects on Mechanical Responses of Polycrystalline High Purity Aluminum Under Dynamic Shear Deformation", Journal of The Chinese Society of Mechanical Engineers, Vol. 16, No. 6, pp. 559-608.
  137. W. S. Lee, H. F. Lam (1994), "Mechanical Response and Dislocation Substructure of High Strength Ni-Cr-Mo Steel Subjected to Impact Loading", Journal de Physique, Colloque C8, Supplement au Journal de Physique 3, Volume 4, pp. C8-307-C8-312. (SCI, Impact factor: 0.381)
  138.  C. Y. Chiem, W. S. Lee (1994), "The Influence of Dynamic Shear Loading on Plastic Deformation and Microstructure of Tungsten Single Crystal",Materials Science and Engineering A, Vol. A 187, No.1, pp.43-50. (SCI, Impact factor: 0.943)
  139. W. S. Lee, H. F. Lam, K. P. Staudhammer (1991), "Steel-18G2A and Steel-HNMCu Strengthened by Explosive and Cold-Rolled Deformation",Journal de Physique. (SCI, Impact factor: 0.381) 
  140. C. Y. Chiem, W. S. Lee, P. Meyer (1988), "Dynamic Response and Microstructural Aspect of CP271 and CP274 Aluminium-Lithium Alloy",Journal de Physique.(SCI, Impact factor: 0.381)
  141. C. Y. Chiem, X. W. Zhou (1987), W. S. Lee, "High Strain Rate Behaviour of CP271 Aluminium-Lithium Alloy",Journal de Physique.(SCI, Impact factor: 0.381)

B.Conference Papers

  1. 李偉賢,周正文(2014年12月)。AZ80鎂合金在不同溫度下之撞擊特性與微觀結構分析。中國機械工程師學會第三十一屆全國學術研討會。台中市。
  2. 李偉賢,林青瑢(2013年12月)。7075-T6 鋁合金在低溫撞擊下之機械性質與微觀結構分析。中國機械工程師學會第三十一屆全國學術研討會。台中市。
  3. 李偉賢,梁寶庭(2013年12月)。晶向結構及溫度在7075-T6鋁合金動態塑變行為與結構特性之效應分析。中國機械工程師學會第三十一屆全國學術研討會。台中市。
  4. 偉賢,黃鈺祺(2013年12月)。6061-T6鋁合金在低溫下之撞擊特性與微觀結構分析。中國機械工程師學會第三十屆全國學術研討會。宜蘭市。
  5. 李偉賢,楊茜文(2013年12月)。鋁合金(6061-T6)之高溫高速撞擊與微觀特徵分析 。中國機械工程師學會第三十屆全國學術研討會。宜蘭市。
  6. 李偉賢,唐子超(2013年12月)。6061-T6鋁合金在高溫撞擊下之塑變行為與差排結構分析。中國機械工程師學會第三十屆全國學術研討會。宜蘭市。
  7. 李偉賢,吳宗翰(2012年12月)。6061-T6鋁合金滾軋板材在不同晶向方位及溫度下之動態剪切性能分析。中國機械工程師學會第二十九屆全國學術研討會,高雄市。
  8. 李偉賢,高豪謙(2012年12月)。鈷基Haynes188超合金在不同溫度下之撞擊特性與微觀結構分析。中國機械工程師學會第二十九屆全國學術研討會高雄市。
  9. 李偉賢,許銘家(2012年12月)。Inconel 690合金於低溫高速荷載下之動態塑變行為與顯微結構分析。中國機械工程師學會第二十九屆全國學術研討會,高雄市。
  10. 李偉賢,陳家瑋(2012年12月)。鈦合金(Ti-6Al-7Nb)在高溫下之高速撞擊與微觀特徵分析。中國機械工程師學會第二十九屆全國學術研討會,高雄市
  11. 李偉賢,劉茂宏(2012年12月)。6061鋁合金滾軋板材在不同晶向方位及應變速率下之塑變行為與差排次結構分析。中國機械工程師學會第二十九屆全國學術研討會,高雄市。
  12. 李偉賢,王舜民(2011年11月)。AISI 4140合金鋼在極高速剪切荷載下之絕熱剪切變形與破壞行為分析。中國機械工程師學會第二十八屆全國學術研討會,台中市。
  13. 李偉賢,林敬淯(2011年11月)。AISI 4140合金鋼在不同溫度下之高速撞擊行為與微觀特徵分析。中國機械工程師學會第二十八屆全國學術研討會,台中市。
  14. 李偉賢,謝牧勳(2011年11月)。溫度及應變速率在AISI 4140合金鋼動態剪切性能上之效應分析。中國機械工程師學會第二十八屆全國學術研討會台中市。
  15. Woei-Shyan Lee, Chi-Feng Lin, Tao-Hsing Chen and Hong-Wei Chen(2011,Sep). Impact Deformation Behaviour and Dislocation Substructure Evolution of Inconel 718 Alloy Over Wide Temperature Range. International Conference on Advanced Technology in Experimental Mechanics ATEM’11,, Kobe, Japan.
  16. Woei-Shyan Lee, Jyun-Ming Chen(2011, Jun). The Effects of the Annealing Temperature on the Indented Nanostructure of Ni/Si Thin Film. 2nd International Conference on Mechanical and Manufacturing Engineering(ICME’11), Putrajaya, Kuala Lumpur, Malaysia.
  17. 李偉賢,吳政倫(2010年12月)。銀矽薄膜之奈米壓痕行為及其退火微觀結構變化之研究。中國機械工程學會第二十七屆全國學術研討會,台北市。
  18. 李偉賢,李宗運(2010年12月)。應變速率及溫度在316L不鏽鋼動態剪切變形與破壞行為之效應分析。中國機械工程學會第二十七屆全國學術研討會,台北市。
  19. 李偉賢,羅文振(2010年12月)。316L不銹鋼在不同溫度下之動態撞擊行為分析。中國機械工程學會第二十七屆全國學術研討會,台北市。
  20. 李偉賢,張碩玲(2009年12月)。荷載及退火溫度在矽單晶奈米壓痕行為及微觀結構變化上之效應分析。中國機械工程學會第二十六屆學術研討會,台南市。
  21. 李偉賢,莊予良(2009年12月)。銅/矽薄膜之奈米壓痕行為及其退火後微觀結構變化之研究。中國機械工程學會第二十六屆學術研討會。
  22. 李偉賢,陳弘偉(2009年12月)。鎳基718超合金在不同溫度下之撞擊特性與微觀結構分析。中國機械工程學會第二十六屆學術研討會,台南市。
  23. 李偉賢,黃啟生(2009年12月)。溫度及應變速率在鎳基718超合金動態剪切變形與破壞行為之效應分析。中國機械工程學會第二十六屆全國學術研討會,台南市。
  24. Woei-Shyan Lee, Te-Yu Liu and Tao-Hsing Chen(2009年05月)。The Temperature Effect on Nanoindentation Behaviour of Au/Cr/Si Thin Films。2009精密機械與製造科技研討會PMMT 2009,屏東墾丁。
  25. W. S. Lee, and T.H. Chen (2009, Feb). Impact Properties and Microstructural Evolution of Weldable and Unweldable Aluminum-Scandium (Al-Sc) Alloys.2009 TMS Annual Meeting & Exhibition, San Francisco, CA, U.S.A..
  26. W. S. Lee, C. Y. Liu and T.H. Chen(2008, Dec). Shear localization in dynamic deformation of different steels,. 3rd International Symposium on Advanced Fluid/Solid Science and Technology in Experimental Mechanics, Tainan, Taiwan..
  27. 李偉賢,陳道星(2008, Nov). Comparative Study of Dynamic Impact Properties and Microstructures of Weldable and Unweldable Aluminum-Scandium (Al-Sc)Alloys. 中國機械工程師學會第二十五屆全國學術研討會, 彰化縣.
  28. 李偉賢,陳俊明(2008年11月)。鎳矽薄膜之奈米壓痕行為及退火微觀結構變化之研究。中國機械工程師學會第二十五屆全國學術研討會,彰化縣。
  29. 李偉賢,黃獻慶(2008年11月)。Ti-6Al-4V合金在低溫下之撞擊變形行為分析。中國機械工程師學會第二十五屆全國學術研討會,彰化縣。
  30. 李偉賢,楊孟杰(2008年11月)。預變形304L不銹鋼在高速高溫變形下之機械性質與微觀結構分析。中國機械工程師學會第二十五屆全國學術研討會彰化縣。
  31. W. S. Lee, C. Y. Liu and T.H. Chen(2008, May). Shear deformation of differentsteels under extreme high rate loading. 17th International Conference on Metallurgy and Materials(Metal 2008), Hradec nad Moravicí, Czech Republic, Europe..
  32. W. S. Lee, T.H. Chen and H.H. Haung(2008, May). Strain Rate and Temperature Dependence of Mechanical properties and Microstructure of Biomedical Titanium Alloy. International Conference on Mechanical and Manufacturing Engineering (ICME)2008, Johor Bahru, Johor, Malaysia..
  33. 李偉賢,陳道星,李南瑋(2007年11月)。生醫鈦合金之動態剪切變形與破壞行為分析。中國機械工程師學會第二十四屆全國學術研討會,桃園縣中壢市。
  34. 李偉賢,陳道星,盧俊廷(2007年11月)。鋁鈧合金在極高速剪切荷載下之絕熱剪切變形行為研究。中國機械工程師學會第二十四屆全國學術研討會桃園縣中壢市。
  35. 李偉賢,陳銘祥(2007年11月)。鋁鈧合金之撞擊變形與差排結構特徵分析。中國機械工程師學會第二十四屆全國學術研討會,桃園縣中壢市。
  36. 李偉賢,劉得煜(2007年11月)。金/鉻/矽薄膜系統之奈米壓痕行為及其微觀結構變化之研究。中國機械工程師學會第二十四屆全國學術研討會,桃園縣中壢市。
  37. W. S. Lee and F.J. Fong(2007年09月)。Influence of nanoidentation depth and annealing temperature on formation of eutectic phase in Au/Si thin film systems。International Symposium on Advanced Fluid/Solid Science and Technology in Experimental Mechanics (2th ISEM 2007),Osaka, Japan 。
  38. W. S. Lee and F.J. Fong(2007, Aug). Nanoindentation behaviour and microstructural evolution of au/cr/si thin filmS. 第六屆海峽兩岸製造技術研討會(The 6th Cross-strait Manufacturing Workshop), 西安,中國.
  39. 李偉賢,林奇鋒,陳道星,黃信華(2006年11月)。生醫鈦合金在不同溫度及應變速率下之機械與微觀特性反應“。中國機械工程師學會第二十三屆全國學術研討會,台南縣永康市。
  40. 李偉賢,陳道星,龔虔稽(2006年11月)。溫度及應變速率在非可銲性鋁鈧合金動態剪切性能上之效應分析。中國機械工程師學會第二十三屆全國學術研討會,台南縣永康市。
  41. 李偉賢,馮芳瑞(2006年11月)。奈米壓痕深度及加熱溫度對金矽薄膜共晶相形成之影響。中國機械工程師學會第二十三屆全國學術研討會,台南縣永康市。
  42. W. S. Lee, C. F. Lin and Y.C, Lin(2006, Sep). Dynamic deformation and failure behaviour of Al-Sc alloy under shear loading. DYMAT 2006, Dijon, France.
  43. W. S. Lee, C. Y. Liu and T.H. Chen(2006, Aug). Adiabatic shearing behaviour of different steels under extreme high shear loading. Advanced in Materials and Processing Technologies (AMPT) 2006 Conference, Les Vegas, L.A., U.S.A..
  44. W. S. Lee and S.K., Lee(2006年07月)。Heat Release Rate of the Fire Predicted by Sequential Inverse Method。4th International Conference on Quantum Engineering Science,Tainan, TAIWAN.。
  45. W. S. Lee and S.K., Lee(2006, May). The heat release rate of the fire predicted by sequential inverse methods. 28th International Conference on Boundary Elements and Other Mesh Reduction Method, Skiathos, Greece..
  46. 李偉賢,林永慶(2005年11月)。應變速率與溫度在鋁鈧合金動態剪切特性上之效應分析。中國機械工程學會第二十二屆全國學術研討會,桃園中壢市。
  47. 李偉賢,林奇鋒,黃信華(2005年11月)。應變速率溫度在鈦合金(Ti-15Mo-5Zr-3Al)塑變行為及顯微結構上之效應分析。中國機械工程學會第二十二屆全國學術研討會,桃園中壢市。
  48. 李偉賢,邱建程(2005年11月)。燒結密度對316L不銹鋼粉末冶金件動態撞擊特性及微觀結構之影響。中國機械工程學會第二十二屆全國學術研討會桃園中壢市。
  49. 李偉賢,徐嘉祥(2005年11月)。應變速率及相對密度在鐵鎳合金(Fe-2Ni)粉末冶金件高速撞擊性質與微觀結構上的效應分析。中國機械工程學會第二十二屆全國學術研討會,桃園中壢市。
  50. 李偉賢,劉鎮洋(2005年11月)。溫度與應變速率效應在不同鋼鐵動態壓縮塑流行為之影響。中國機械工程學會第二十二屆全國學術研討會,桃園中壢市。
  51. 黃智生,王星豪,李偉賢,陳道星,吳嘉昌,蕭琬云,連敏榮(2005年11月)。不銹鋼桿件受動態撞擊引發之γ相變態。中國機械工程學會第二十二屆全國學術研討會,桃園中壢市。
  52. W. S. Lee and S.Z. Huang(2005, May). Deformation and failure behaviour of Ti-6Al-4V alloy under high rate shear loading. 2nd International Conference on Computational Ballistics, Cordoba, Spain..
  53. 李偉賢,周建綱(2004年11月)。鐵鎳合金(Fe-2Ni)粉末冶金件之高速變形行為分析。中國機械工程學會第二十一屆全國學術研討會,高雄市。
  54. 李偉賢,林奇鋒,黃士展(2004年11月)。溫度與應變速率在鈦合金(Ti-6Al-4V)剪切特性上之效應分析。中國機械工程學會第二十一屆全國學術研討會,高雄市。
  55. 李偉賢,王柏凱(2004年11月)。鐵錳鋁合金之高速撞擊與破壞行為研究。中國機械工程學會第二十一屆全國學術研討會,高雄市。
  56. 李偉賢,張榮洲(2004年11月)。抽線道次對銅伸線機械性質的影響。中國機械工程學會第二十一屆全國學術研討會,高雄市。
  57. 李偉賢,劉宗儒(2004年11月)。應變速率對316L不銹鋼粉末冶金件撞擊性能的影響。中國機械工程學會第二十一屆全國學術研討會,高雄市。
  58. 黃智生,王星豪,李偉賢,陳道星,連敏榮(2004年11月)。特殊不銹鋼之動態撞擊行為。中國機械工程學會第二十一屆全國學術研討會,高雄市。
  59. W. S. Lee, C. Y. Liu, C. F. Lin, M. H. Chiang(2003, Dec). A Comparison of the Dynamic Shear Properties and Fracture Behaviour of Continuous and Pulsed Current Plasma Arc Weldments of 304L Stainless Steel. 7th International Conference on Mechanical and Physical Behaviour of Materials under Dynamic Loading, Porto University, Portugal..
  60. 李偉賢,林奇鋒,曾昫嵐(2003年12月)。霍普金森桿應用於材料動態變形行為測試之實際與數值模擬比較分析。第二十七屆中華民全國力學學會暨全國力學會議,台南市。
  61. 李偉賢,孫泰農(2003年12月)。鎳基690合金於高溫高速荷載下之動態塑變行為與顯微結構分析。中國機械工程學會第二十屆全國學術研討會,台北市。
  62. 李偉賢,許耀臣(2003年12月)。304L不銹鋼電漿電弧銲接件在不同溫度及應變速率下的機械性質與破壞行為。中國機械工程學會第二十屆全國學術研討會,台北市。
  63. 李偉賢,陳柏村(2003年12月)。溫度及應變速率在304L 不銹鋼銲接件抗拉性質與顯微結構上的效應分析。中國機械工程學會第二十屆全國學術研討會,台北市。
  64. 李偉賢,劉鎮洋(2003年12月)。應變速率以及溫度效應對退火中碳鋼動態壓縮變形行為之影響。第二十七屆中華民全國力學學會暨全國力學會議,台南市。
  65. 李偉賢,劉鎮洋,王柏凱(2003年12月)。離散傅立葉轉換對霍普金森桿實驗波散效應之消除法。第二十七屆中華民全國力學學會暨全國力學會議,台南市。
  66. W. S. Lee, C. Y. Liu, T. N.(2003, Jul). Deformation Behaviour of Inconel 690Super Alloy Evaluated by Impact Test. International Conference on Advances in Materials and Processing Technologies, AMPT 2003, Dublin, Ireland..
  67. 李偉賢,林奇鋒,劉鎮洋,江明信(2002年11月)。304L不銹鋼定電流與脈衝電流電漿銲接件在動態剪切荷載下之塑變行為及破壞特性比較。中國機械工程學會第十九屆全國學術研討會,雲林縣。
  68. 李偉賢,林奇鋒,劉鎮洋,陳志維(2002年11月)。應變速率及銲接電流模式在304L不銹鋼電漿電弧銲接件之動態撞擊特性及顯微結構的效應分析。中國機械工程學會第十九屆全國學術研討會,雲林縣。
  69. 李偉賢,劉鎮洋,林奇鋒,曾繁宗(2002年11月)。304L不銹鋼之惰性氣體鎢棒電弧銲及遮蔽金屬電弧銲銲接件的高速撞擊行為與顯微結構之特性分析。中國機械工程學會第十九屆全國學術研討會,雲林縣。
  70. 李偉賢,劉鎮洋,林奇鋒,程仁毅(2002年11月)。304L不銹鋼之惰性氣體鎢棒電弧銲及遮蔽金屬電弧銲銲接件在動態剪切負荷下的塑變行為與破壞特性分析。中國機械工程學會第十九屆全國學術研討會,雲林縣。
  71. W. S. Lee, H. L. Lin(2002, Sep). The Strain Rate Dependence of Deformation and Fracture Behaviour of Acrylonitrile-Butadiene-Styrene (ABS) Copolymer in Impact Test. 3rd ESIS TC4 Conference on Polymer and Composites, Les Diableries, Switzerland.
  72. 李偉賢,林煌隆(2002年03月)。PC/ABS高分子聚合物之高速撞擊特性與破壞分析。第七屆破壞科學研討會,屏東墾丁。
  73. 李偉賢,沈弘哲(2001年12月)。丙烯睛-丁二烯-苯乙烯(ABS)共聚合物與聚碳酸脂混合高聚物(PC/ABS blend)之動態剪切變形與破壞行為分析。中國機械工程學會第十八屆學術研討會,台北市。
  74. 李偉賢,林煌隆(2001年12月)。高分子聚合物在不同應變速率下之壓縮變形特性與破壞分析。中國機械工程學會第十八屆學術研討會,台北市。
  75. 李偉賢,陳道星(2001年12月)。高錳鋼在不同應變速率下的動態塑性變形行為與顯微結構之特性分析。中國機械工程學會第十八屆學術研討會,台北市。
  76. 李偉賢,葉律廷(2001年12月)。Compressive Deformation and FailureBehaviour of Tin-Lead Solder Alloys。2001年電子接觸與連接器研討會,台北市陽明山。
  77. 李偉賢,劉家銘(2001年12月)。304不銹鋼在動態剪切荷載下的塑變行為與破壞結構特性分析。中國機械工程學會第十八屆學術研討會,台北市。
  78. 李偉賢,葉律廷(2001年11月)。溫度及應變速率在錫鉛合金材料壓縮變形行為上之效應分析。中國材料科學學會八十九年度論文發表會,高雄市。
  79. W. S. Lee, C. F. Lin(2001, Aug). Effect of Reinforcement Orientation on Dynamic Properties of 6061-T6 Aluminum/Carbon Fiber Metal Matrix Composite. Eighth Annual International Conference on Composites Engineering, Tenerife, Spain.
  80. 李偉賢,詹志源(2000年12月)。60-40錫鉛合金在不同溫度下之動態塑變行為及顯微結構特徵分析。中國機械工程學會第十七屆學術研討會,高雄市。
  81. 李偉賢,劉鎮洋(2000年12月)。63-37錫鉛合金在不同溫度下之動態塑變行為及破壞顯微特徵分析。中國機械工程學會第十七屆學術研討會,高雄市。
  82. W. S. Lee, C. H. Lai and S. T. Chiou(2000, Jul). Simulation of Perforation Behaviour of Carbon Fiber Reinforced 6061-T6 Aluminium Metal Matrix Composite by a Tungsten Projectile. Sixth International Conference on Structures Under Shock and Impact, Cambridge University, U. K..
  83. 李偉賢,徐家權(1999年12月)。溫度及應變速率在6061鋁合金動態塑變行為與差排結構之效應分析。中國機械工程學會第十六屆學術研討會,新竹市。
  84. 李偉賢,曾昫嵐(1999年12月)。霍普金森桿應用於材料動態測試之模擬與分析。中國機械工程學會第十六屆學術研討會,新竹市。
  85. 李偉賢,賴昌宏(1999年12月)。6061鋁基碳纖維強化複合材料高速撞擊下之變形行為模擬與分析。中國機械工程學會第十六屆學術研討會,新竹市
  86. W. S. Lee, W. C. Sue(1999, Jul). Dynamic Compressive Strength and Failure of Carbon Fiber Reinforced Aluminum Metal Matrix Composite. 12th International Conference on Composite Materials, Paris, France.
  87. W. S. Lee, W. C. Sue,(1999, Jul). Dynamic Impact Loading Deformation of Carbon Fiber Reinforced Al-Li Metal Matrix Composite. 5th International Conference on Composites Engineering, Las Vegas, U. S. A..
  88. 李偉賢,吳清吉(1998年11月)。不同製程對7075鋁合金在高速高溫變形特性上的影響。中國機械工程學會第十五屆學術研討會,台南市。
  89. 李偉賢,張森泰(1998年11月)。溫度及應變速率在鎢基穿甲複合材料壓縮變形特性上之效應分析。中國機械工程學會第十五屆學術研討會,台南市
  90. 李偉賢,謝國良(1997年12月)。鎢基穿甲複合材料(W-Ni-Fe)在高溫及高速下之塑變行為分析。中國機械工程學會第十四屆學術研討會,桃園縣中壢市。
  91. 李偉賢,林奇鋒(1996年11月)。鈦合金(Ti-6Al-4V)之高速高溫變形行為分析。中國機械工程學會第十三屆學術研討會,台北市。
  92. W. S. Lee, C. C. Lin(1996, Jul). Oblique Impact and Perforation Behaviours of AISI 4340 Alloy Steel Plate by Hemisperically-tipped Tungsten Sinter Alloys Projectile. Fourth International Conference : Structures Under Shock and Impact, SUSI 96, Udine, Italy.
  93. 李偉賢,林忠旗(1995年11月)。高速正向撞擊下AISI 4340 合金鋼之變形及貫穿行為分析與模擬。中國機械工程學會第十二屆學術研討會,嘉義縣
  94. 李偉賢,林明通(1995年11月)。溫度及應變速率在鈦合金鍛壓特性上之效應分析。中國機械工程學會第十二屆學術研討會,嘉義縣。
  95. 李偉賢,葉根旺(1995年11月)。AISI 4340 合金鋼之高溫高速變形行為分析。中國機械工程學會第十二屆學術研討會,嘉義縣。
  96. W. S. Lee, W. C. Sue(1995, Aug). The Study of A380 Aluminum Alloy Strengthened with 316L Stainless Steel Fiber. 2nd International Conference on Composites Engineering, New Orleans, U. S. A..
  97. 李偉賢,林文生(1994年11月)。應變速率及溫度在鈦合金塑變行為上之效應分析與模擬。中國機械工程學會第十一屆學術研討會,台中市。
  98. 李偉賢,蘇再添(1994年11月)。AISI 4340 高強度合金鋼之單軸拉伸機械性質及顯微結構分析。中國機械工程學會第十一屆學術研討會,台中市。
  99. 李偉賢,蘇再添(1994年11月)。AISI 4340 高強度合金鋼之高週疲勞特性及微觀結構分析。中國機械工程學會第十一屆學術研討會,台中市。
  100. W. S. Lee, T. B. Wu(1994, Apr). The Influences of Tempering Conditions on Microstructural Features and Mechanical Properties of 35NCD16 Steel. Proc. Of The 1994 Annual Conf. of The Chinese Soc. for Mat. Sci..
  101. 李偉賢,吳東壁(1993年11月)。35NCD16鋼材之低週波疲勞特性及顯微結構分析。中國工程師學會第十屆全國學術研討會,新竹市。
  102. W. S. Lee, H. F. Lam(1993, Apr). Strain Rate Dependence of Mechanical Behaviour and Evaluation of Microstructure of 35NCD16 Steel. Proc. of The1993 Annual Conf. of The Chinese Soc. for Mat. Sci..
  103. W. S. Lee(1992, Nov). The Effects of Strain Rate on Mechanical Behaviour and Microstructure Variations of Tungsten Single Crystal. 9th. Nat. Conf. on Mech.Eng. CSME,, Kaohsiung.
  104. W. S. Lee, C. Y. Chiem(1990, Nov). Cisaillement et Traction Dynamiques de Composite SiC-L. A. S. Bidimensionnel. Comptes-Rendus des septiems Journees Nationales Sur Les Composites,, Lyon.
  105. C. Y. Chiem, W. S. Lee(1989, Mar). Strain Rate Dependence of Mechanical Behaviour and Evaluation of the Microstructure of Tungsten Monocrystals. Fourth Conference on Mechanical Properties of High Rate of Strain, Oxford, U.K..
  106. C. Y. Chiem, W. S. Lee(1989, Feb). High Strain Rate Behaviour of Tungsten Single Crystals under Shear Loading. Internal Research Orientation Conference of the French-Germany Ministries of Defense, Paris, France.
  107. C. Y. Cheim, W. S. Lee(1988, Sep). The Relationship Between Tensile Strength and Shear Strength in Tungsten Base Materials Subjected to High Strain Rates.2nd International Conferences on Mechanical and Physical Behaviour of Materials under Dynamic Loading, Ajaccio, France.
  108. T. S. Lei. E. T. Chen, W. S. Lee, Y. C. Lin(1984, Apr). The Rolling and Sliding Properties of the High Strength Ductile Irons. Proc. of 1st Inter. Austempering Ductile Iron Conference, Chicago..

C.Other Publications 

  1. 李偉賢(2012年07月)。6061鋁合金滾軋板材在不同晶向方位及應變速率下之塑變行為與差排次結構分析。
  2. 李偉賢(2011年07月)。應變速率及溫度在316L不銹鋼高速變形特性、差排及麻田散鐵變態與雙晶生成上之效應分析。
  3. 李偉賢(2010年07月)。鎳基超合金(In718)在不同溫度下之撞擊特性與顯微結構分析。
  4. 李偉賢(2009年07月)。應變速率及溫度在高強度錳鉬合金鋼塑變特性及顯微結構與絕熱剪切破壞上之效應研究。
  5. 李偉賢(2008年07月)。高強度鋁鈧合金之塑變特性及顯微結構與絕熱剪切破壞研究(3/3)。
  6. 李偉賢(2007年07月)。不同鋼種在極高速剪切荷載下之絕熱剪切變形行為研究。
  7. 李偉賢(2007年07月)。高強度鋁鈧合金之塑變特性及顯微結構與絕熱剪切破壞研究(2/3)。
  8. 李偉賢(2006年07月)。高強度鋁鈧合金之塑變特性及顯微結構與絕熱剪切破壞研究(1/3)。
  9. 李偉賢(2005年07月)。應變速率及溫度在鈦合金(Ti-15Mo-5Zr-3Al)塑變行為及顯微結構上之效應分析。
  10. 李偉賢(2004年07月)。鎳基超合金在不同荷載速率及溫度下之變形及顯微結構分析。
  11. 李偉賢(2004年07月)。霍普金森桿運用於材料動態變形行為之實驗與數值模擬比較分析。
  12. 李偉賢(2003年07月)。304L不銹鋼電漿電弧銲件之動態撞擊特性與顯微結構分析。
  13. 李偉賢(2003年05月)。彎管機活動臂轉軸行星齒輪壽命之提升(提升產業技術及人才培育計畫)。
  14. 李偉賢(2002年07月)。預變形對304L不銹鋼高速撞擊行為、麻田散鐵變態及變形雙晶生成之效應分析。
  15. 李偉賢(2001年07月)。高速撞擊下不銹鋼之麻田散鐵變態特性及其對動態機械性質之影響。
  16. 李偉賢(2000年07月)。長纖碳纖維6061鋁基複合材料之動態塑性變形及破壞分析。
  17. 李偉賢(1999年07月)。航空材料之動態測試及航空結構之撞擊行為分析(III)—子計畫二﹕鋁鋰金屬基碳纖維複合材料之動態撞擊行為分析與摸擬(III)。
  18. 李偉賢(1998年07月)。航空材料之動態測試及航空結構之撞擊行為分析(II)—子計畫二﹕鋁鋰金屬基碳纖維複合材料之動態撞擊行為分析與摸擬(II)。
  19. 李偉賢(1997年07月)。航空材料之動態測試及航空結構之撞擊行為分析(I)—子計畫二﹕鋁鋰金屬基碳纖維複合材料之動態撞擊行為分析與摸擬(I)。
  20. 李偉賢(1997年07月)。軌道荷載速率效應﹐磨耗特性及破壤檢測分析。
  21. 李偉賢(1996年07月)。軌道荷載速率效應,磨耗特性及破壞檢測分析。
  22. 李偉賢(1995年07月)。應變速率及溫度在多晶純鋁剪切變形及差排結構上之效應分析。
  23. 李偉賢(1994年12月)。應變速率及溫度在多晶純鋁剪切變形上之效應分析。
  24. 李偉賢(1994年07月)。高速變形下35NCD16鋼材之機械性質及差排結構分析。
  25. 李偉賢,林明通(1993年09月)。鎳鉻鉬鋼之高速壓縮荷載行為與顯微結構分析。
  26. 李偉賢(1993年08月)。鎢單晶動態壓縮之塑性變形行為及微觀特性分析。
  27. 李偉賢(1992年09月)。應變速率對35NCD16鋼材之機械性質及顯微結構效應分析。
  28. C. Y. Chiem, W. S. Lee. Comportement Dynamique et Mode de Rupture des Polycristaux de Tungsten Soumis en Cisaillement aux Grandes Vitess es de Sollicitation . Aug, 1990.
  29. W. S. Lee, June . Correlation entre la Microstructure et les Properiétés Méchanique de Materiaux à Base de Tungsten aux Cisaillement à Grande Vitesse . Jun, 1990.
  30. C. Y. Chiem, W. S. Lee, A. Rouxell,. Deformation de la Loi de Compertement etde la Resistance en Rupture de Trois Materiaux Metalliques . Sep, 1989.
  31. C. Y. Chiem, W. S. Lee. Comportement Dynamique des Monocristaux et Polycristaux de Tungsten Soumis aux Grandes Vitesses de Sollicitation . Apr,1989.
  32. 李偉賢,黃廷合(1988年05月)。鑄件缺陷之成因及對策。
  33. 雷添壽,李偉賢,林原慶(1984年10月)。高強度球狀石墨鑄鐵之機械性質及滾磨耗特性研究。