姓名:李文娟 (Ven-Gen Lee)
職稱:土木系教授
分機:4952
信箱:vglee@ncnu.edu.tw
領域專長:
  • Micromechanics, Ceramics Processing, Failure Analysis of Materials, Anisotropic Elasticity, Mechanics of Composites, Smart materials and Structures
  •  
  • Google Scholar Link
學經歷

學歷

  • Ph.D., Northwestern University
  • B.S., National Taiwan University

經歷

  • Professor, Dept. of Civil Eng., National Chi Nan University, 2013-present
  • Associate Professor, National Chi Nan University, 2003-2013
  • Assistant Professor, National Chi Nan University, 1997-2003
  • Research Associate, Dept. of Civil and Materials Eng., University of Illinois at Chicago, 1993-1997
  • Research Assistant, Theoretical and Applied Mechanics Program, Northwestern University, 1989-1993
教學課程
  • Mechanics of Materials
  • Advanced Mechanics of Materials
  • Lab for Civil Engineering 
  • Advanced Engineering Mathematics (I & II)
  • Engineering Materials
  • Mechanics of Composites
  • Mechanical Behavior of Materials
  • Micromechanics
  • Calculus
研究與興趣
  • Micromechanics
  • Ceramics Processing
  • Failure Analysis of Materials
  • Anisotropic Elasticity
  • Mechanics of Composites
  • Smart materials
  • Structures
榮譽
  • Marquis Who'sWho in Science and Engineering, 2003-2007
  • 教學貢獻獎,97學年度
  • 教學績優獎105107109學年度
  • 優良教學助理指導教師(土木工程實驗一)97學年度
  • 教學傑出教學助理指導教師(材料力學)99108學年度
  • 優良教學助理指導教師(材料力學)98101102105106107109學年度
國內外期刊

  • (1) Ven-Gen Lee, 2015. The Three-dimensional infinite space and half-space Green's functions for orthotropic materials. Journal of Mechanics, 31 (1), 21 - 28. (EI, SCI).

  • (2) Ven-Gen Lee , 2013, Superposing scheme for the three-dimensional Green’s functions of an anisotropic half-space, International Journal of Solids and Structures 50, 2407–2415 (SCI, EI)

  • (3) Ven-Gen Lee , 2009, Derivatives of the three-dimensional Green’s functions for anisotropic materials, International Journal of Solids and Structures 46, 3471–3479 (SCI, EI)

  • (4) Ven-Gen Lee , Ting-Hao Yeh, 2008, Sintering effects on the development of mechanical properties of fired clay ceramics, Materials Science and Engineering A 485, 5–13 (SCI, EI)

  • (5) Y. C. Shiah, C. L. Tan and V.G. Lee, 2008, Evaluation of Explicit-form Fundamental Solutions for Displacements and Stresses in 3D Anisotropic Elastic Solids, Computer Modelling in Engineering & Sciences, vol.34, no.3, 205-226 (SCI, EI)

  • (6) V.G. Lee, 2004,“Applications of Stroh Formalism in Anisotropic Elasticity,” (Invited paper) Journal of the Institute of Civil and Hydraulic Engineering, Special Issue, pp. 805-813.

  • (7) V.G. Lee, 2003, “The Extension of Stroh Formalism to Three-Dimensional Anisotropic Elasticity,”(Invited paper) The Chinese Journal of Mechanics, Series A, Vol. 19, pp. 61-68. (EI, SCI Expanded)

  • (8) V.G. Lee, 2003,“Explicit Expression of Derivatives of Elastic Green’s Functions for General Anisotropic Materials,” Mechanics Research Communications, Vol. 30, pp. 241-249. (EI, SCI)

  • (9) V.G. Lee, 2002,“Evaluation of the Three-Dimensional Elastic Green\'s Function in Anisotropic Cubic Media,” International Journal of Engineering Science, Vol. 40, pp.1349-1361. (EI, SCI)

  • (10)T.C.T. Ting and V.G. Lee, 1997, “The Three-Dimensional Elastostatic Green’s Function for General Anisotropic Linear Elastic Solids,” Quarterly Journal of Mechanics and Applied Mathematics, Vol.50, Pt. 3, 407-426. (EI, SCI)

  • (11)V.G. Lee and T. Mura, 1994,“Load Diffusion and Absorption Problems from a Finite Fiber to Elastic Infinite Matrix,” ASME Journal of Applied Mechanics, Vol.61, 567-574. (EI, SCI)

  • (12)V.G. Lee and T. Mura, 1994,“Load Transfer Problem from a Finite Fiber into an Elastic Semi-Infinite Medium,” ASME Journal of Applied Mechanics, Vol.61, 971-975. (EI, SCI)

  • (13)H. Hasegawa, V.G. Lee and T. Mura, 1993,“ Hollow Circular Cylindrical Inclusion at the Surface of a Half Space,”ASME Journal of Applied Mechanics, Vol.60, 33-40. (EI, SCI)

  • (14)H. Hasegawa, V.G. Lee and T. Mura, 1992,“ The Stress Fields Caused by a Circular Cylindrical Inclusion,” ASME Journal of Applied Mechanics, Vol.59, S107-S114. (EI, SCI)

  • (15)H. Hasegawa, V.G. Lee and T. Mura, 1992,“Green’s Functions for Axisymmetric Problems of Dissimilar Elastic Solids,” ASME Journal of Applied Mechanics, Vol.59, 312-320. (EI, SCI)

國內外研討會

國內研討會

(1) 鄧佑任、李文娟(201608月)。利用咖啡渣製作具隔熱效能的黏土磚之研究。中華民國第十三屆結構工程研討會暨第三屆地震工程研討會中華民國第十二屆結構工程研討會,諾富特華航桃園機場飯店。
(2) 許緄驛、李文娟,2014,利用筊白筍殼製作隔熱磚材之研究,中華民國第十二屆結構工程暨第二屆地震工程研討會, 8 27 - 29 日,高雄國賓飯店。
(3) 許緄驛、李文娟,2013,利用筊白筍殼製作隔熱磚材之可行性研究,中華民國中國鑛冶工程學會102年年會暨研討會,1025日,苗栗台灣中油公司探採研究所。
(4) 張鐘鳴、李文娟,2013,磚顏色變化機制之研究,中華民國中國鑛冶工程學會102年年會暨研討會,1025日,苗栗台灣中油公司探採研究所。
(5) 何宗霖、李文娟,2012,添加矽藻土對黏土陶瓷磚材熱傳導性質之影響,中華民國第十一屆結構工程研討會,95-7日,台中長榮桂冠酒店。
(6) 鄭之浩、李文娟,2011,使用稻殼製造節能磚材之可行性研究,Conference on Resources Engineering 2011, July, 21-22, 2011, NCKU, Tainan, TaiwanPaper NumberRR-15
(7) Lee, Ven-Gen, Cheng, Chih-Hao, 2011, Effect of rice husk on the thermal conductivity of clay-based ceramic materials, 中國材料科學學會-IUMRS ICA 2011100 年年會,Paper Number1241
(8) Lee, Ven-Gen, Dai, Chong-Jie, Development and characterization of a translucent clay-based ceramic material, 中國材料科學學會-IUMRS ICA 2011100年年會, Paper Number1248
(9) 董立瑩、李文娟,2010,添加菫青石及蛭石對黏土陶瓷熱傳導性質影響之比較,中華民國九十九年材料科學學會年會,論文編號:01-0680(NSC 98-2221- E-260-033)
(10) 何宗霖、李文娟,2010,添加沸石粉對黏土陶瓷材料熱傳導性質之影響,中華民國九十九年材料科學學會年會,論文編號:01-0809
(11) 楊韙誠、李文娟,2010,添加硅石粉對黏土陶瓷材料熱傳導性質之影響,中華民國九十九年材料科學學會年會,論文編號:01-0831
(12) 蕭潤身,李文娟,2009,添加氧化物之氧化鋁陶瓷性質研究,中華民國九十八年第四屆資源工程研討會。
(13) 蕭潤身,李文娟,2009,添加劑對氧化鋁陶瓷微觀結構之影響,中國機械工程學會第二十六屆全國學術研討會。
(14) 蕭潤身、李文娟,2008,添加助熔劑對氧化鋁陶瓷機械性質之影響,97年中華民國材料科學學會年會,971121-22
(15) 蔡育霖、李文娟,燒結行為對黏土陶瓷材料機械性質之影響,中華民國力學學會第三十屆全國力學會議,951215-16
(16) 蔡育霖、葉丁豪、李文娟,添加白雲石天然石材製成透水舖面材料研究 中華民國第八屆結構工程研討會,9591-3日。
(17) V.G. Lee, 2002, "Boussinesq Problem in Three-Dimensional Anisotropic Elasticity," Fourteenth U.S. National Congress of Theoretical and Applied Mechanics, June 23-28, 2002, Blacksburg, Virginia, USA.
(18)V.G. Lee, 2001,“Further Discussion on the Elastic Green’s Function for Anisotropic Cubic Materials,”The Fourth Pacific International Conference on Aerospace Science and Technology (PICAST 4), May 21-23, 2001, Taiwan.
(19)V.G. Lee, “Stress Concentration Effects in Anisotropic Materials,”中國機械工程學會第十六屆全國學術研討會,Session:疲勞與破壞,會議主持人及論文發表,1999,新竹清華大學。
(20)V.G. Lee, T. Mura, "Load Transfer from a Finite Cylindrical Fiber into an Elastic Half-Space," ASME International Mechanical Engineering Congress and Exposition, November 6-11, 1994, Chicago, Illinois, U.S.A.
(21)V.G. Lee, T. Mura,“The Elastic Field due to a Cylindrical Inclusion,” ASME Winter Annual Meeting, November 8-13, 1992, Anaheim, California, U.S.A.

(22)H. Hasegawa, V.G. Lee, T. Mura,“The Elastic Field due to a Cylindrical Inclusion,” ASME Winter Annual Meeting, December 1-6, 1991, Atlanta, Georgia, U.S.A.

國外研討會

專利與技術移轉
執行計畫

科技部計畫

  • 竹葉廢料的特性研究及應用竹葉製作永續磚材之技術研發及性能評估2021/08/01~ 2022/07/31
  • 多孔結構陶瓷的材料特性與孔隙度相關性探討及隔熱應用之研究2016/08/01~2017/07/31
  • 孔洞引起之應力集中對異向性材料力學性質的影響(I)2014/08/01~2015/07/31
  • 隔熱用結構黏土陶瓷材料之製程與熱傳導及力學性質評估:2010/08/01-2011/07/31
  • 多孔建築陶瓷材料之製造及熱傳導性質測試:2009/08/01-2010/10/31
  • 高性能建築陶瓷材料之製造技術及其透水性質測試:2008/08/01-2009/07/31
  • 性能之結構材料製造技術與測試方法研究:2006/08/01-2007/07/31
  • 材料微觀模擬與相關機械性質研究:2005/08/01-2006/07/31
  • 材料結晶缺陷模擬與相關力學行為研究:2004/08/01~2005/07/31
  • 智慧型壓電材料特性探討及應用之研究(I)2002/08/01~2003/07/31
  • 異向性材料應力集中問題研究(II)2001/08/01~2002/07/31
  • 異向性材料應力集中問題研究(I)2000/08/01~2001/07/31
  • 三維異向性彈力理論應用於材料缺陷之研究:1999/08/01~2000/07/31

大專生研究計畫

  • 利用竹葉開發生物建材隔熱磚(陳丁豪)109-2813-C-260-001-E
  • 實驗評估磚材料於提升建築物熱舒適度之成效(葉乃華)102-2815-C-260-016-E
  • 添加天然珍珠石製成隔熱磚材之研究(何宗霖)99-2815-C-260-013-E
  • 添加白雲石天然石材製成透水舖面材料研究(蔡育霖) 95-2815-C-260-025-E
回上層