跳到主要內容

臺灣博碩士論文加值系統

(18.97.14.86) 您好!臺灣時間:2025/01/14 10:52
字體大小: 字級放大   字級縮小   預設字形  
回查詢結果 :::

詳目顯示

我願授權國圖
: 
twitterline
研究生:樓靜文
研究生(外文):Ching-Wen Lou
論文名稱:聚丙烯不織布邊材製造複合股線與織物之電性研究
論文名稱(外文):Fabrication and Electric Properties of the Ply Yarn and Its Fabrics Produced by Polypropylene Nonwoven Selvage
指導教授:呂秋光邢文灝
指導教授(外文):Chiu-Kuang LuWen-Hao Hsing
學位類別:博士
校院名稱:逢甲大學
系所名稱:紡織工程所
學門:工程學門
學類:紡織工程學類
論文種類:學術論文
論文出版年:2002
畢業學年度:90
語文別:中文
論文頁數:110
中文關鍵詞:織邊板材股線聚丙烯不織布表面電阻值
外文關鍵詞:laminatesply yarnselvagepolypropylene nonwoven fibricssurface resistivity
相關次數:
  • 被引用被引用:3
  • 點閱點閱:200
  • 評分評分:
  • 下載下載:0
  • 收藏至我的研究室書目清單書目收藏:1
封面
摘要
ABSTRACT
目錄
圖目錄
表目錄
第一章 前言
第二章 原理
2.1 功能性聚丙烯不織布織邊複合股線成型原理
2.2 功能性聚丙烯不織布織邊複合股線織物疊層熱壓成型原理
2.3 抗靜電原理
2.4 電磁波遮蔽原理
2.5 定義
第三章 實驗
3.1 實驗材料
3.2 實驗儀器設備
3.3 實驗製程設計
3.4 實驗測試項目
第四章 結果與討論
4.1 寬3 cm,基重18 g/m2聚丙烯不織布織邊/聚酯長絲(芯材/包繞材)製造複合股線、織物以及熱壓板材可行性之探討
4.2 功能性聚丙烯不織布織邊紡製複合股線(芯材/補強材/包繞材)之製程與應用
4.3 功能性聚丙烯不織布織邊複合股線(芯材/補強材/包繞材)織物之最大斷裂強度、最大斷裂伸度以及強力利用率分析
4.4 功能性聚丙烯複合股線(芯材/補強材/包繞材)織物表面電阻率及體積電阻率之探討
4.5 複合股線(芯材/補強材/包繞材)織物二層疊層熱壓板之探討
第五章 結論
參考文獻
誌謝
作者簡介
歷年研究成果
[1]Japan Environment Agency, Environmental Report, (1999)[2]Meng-Shiun Wei, Kuo-Hei Huang, “Recycling and Reuse of Industrial Wastes in Taiwan”, Waste Management, 21, 93-97(2001)[3]Steven B. Warner, “Fiber Science”, Prentice Hall, Englewood Cliffs, NJ07632, 1-3. (1995)[4]Gilmore, T.F. Danis, H.A. and. Batra, S.K., "Thermal Bonding of Nonwoven Fabrics", Textile Progress. 26(2), 24-32 (1995)[5]吳其章,西歐地區非織物產能持續增加,中國紡織工業研究中心,http://itisdom.itri.org.tw/_a2anro4m2mg_/ctirshar.nsf/bdb9b179db6a7994482563ee0001140c/6ece1d34b2441ee7482569e6002e370a?OpenDocument (2001/01/16)[6]Marvin Wishman and Gerald E. Hagler, “Handbook of Fiber Science and Technology: Volume IV Fiber Chemistry,” Chapter 4, 371-502[7]T. S. Ingold and K. S. Miller, “Geotextiles Handbook,” Thomas Telford, London, First published, (1988)[8]Colvin, R., Moore, b., "Polypropylene: High Price/Performance Ratio Provides Growth," Modern Plastics, 74, 56-57 (1996/01)[9]Graves, V., "A Commodity Plastic Reaches Record highs in 1994 Production", Modern Plastic Encyclopedia. P B-62 (1996)[10]Rongguo Zhao and Hong Yin, “Polypropylene Fibers”, http://trcs.he.utk.edu/textile/nonwovens/polypro.html[11]絲路國際紡織網,臺灣及國外抛棄型不織布使用的原料分析,http://stextile.9sino.com/html/detail/news/subject/8-15/6.htm (2000/11/8)[12]F.F.Aspiras, J.R.I.Manalo, “Utilization of Textile Waste Cuttings as Building Material”, Journal of Materials Processing Technology, 48, 379-384 (1995)[13]M. Meherabzadeh, F. Farahmand, “Recycling of Commingled Plastics Waste Containing Polypropylene, Polyethylene, and paper”, Journal of Applied Polymer Science, Vol. 80, 2573-2577 (2001)[14]Jia-Hong Lin, M. S. Thesis, “The study for the Rotor Twist Machine”, the Institute of Textile Engineering, Feng Chia University, Taiwan, R. O. C., 2-15 (1992).[15]J. H. LIN, I. S. Tsai, W. H. Hsing, “ Introduction to an Innovative Rotor Twister ”, The Journal of the Textile Institute, Vol. 89, No.2, Part1, 266-p273 (1998) (SCI).[16]J. H. LIN, I. S. Tsai, W. H. Hsing, Z. Z. Yang, “ The Influence of the Twist Direction on the Physical Properties of a Plied Yarn in a Rotor Turnal of the Twister “, The Journal of the Textile Institute, Vol. 89, No. 3, Part1, 480-484 (1998) (SCI)[17]Lin, J. H., Hsing, W. H., and Tsai, I. S., “Introduction to the Selvages Twisting Machine”, The 5th Asian Textile Conference, Kyoto, Japan, 2, 1044-1047 (1999)[18]Lou, C. W., Lin, J. H., Hsing, W. H. and Lu, C. K., “Application of Recycled Textile Industry Selvages”, The 5th Asian Textile Conference, Kyoto, Japan, 2, 1172-1175 (1999)[19]中國靜電資訊網,http://www.esd-china.com/[20]Arie Hochberg and Johan Versieck, “Shielding for EMI and Antistatic Plastic Resins with Stainless Steel Fibers”, Plastics, Additives & Compounding, Volume: 3, 24-28 (2001/03)[21]Karger-Kocsis J., Czigány, T., “Effects of Interphase on the Fracture and Failure Behavior of Knitting Fabric Reinforced Composites Produced from Commingled GF/PP yarn”, Composites Part A: Applied Science and Manufacturing, 29(A), 1319-1330 (1999)[22]Ye, L.; Friedrich, K.; Kastel, J.; Mai, Y. -W., “Consolidation of unidirectional CF/PEEK Composites from Commingled Yarn”, Composites Science and Technology, Vol. 54, Issue 4, 349-358 (1995) [23]Lauke, B.; Bunzel, U.; Schneider, K., “Effect of Hybrid Yarn Structure on the delamination Behaviour of Thermoplastic Composites”, Composites Part A: Applied Science and Manufacturing (Incorporating Composites and Composites Manufacturing) Vol. 29, Issue 11, November, 1397-1409 (1998)[24]Kim, Dae-Hwan; Lee, Woo Il; Friedrich, Klaus, “A Model for a Thermoplastic Pultrusion Process using Commingled Yarn”, Composites Science and Technology, Vol. 61, Issue 8, 1065-1077 (2001/06)[25]Wakeman, M.D.; Rudd, C.D.; Cain, T.A.; Brooks, R.; Long, A.C., “Compression Moulding Glass and Polypropylene Composites for Optimised Macro- and Micro-mechanical Properties. 4: Technology Demonstrator — a Door Cassette Structure”, Composites Science and Technology Vol. 60, Issue 10, 1901-1918 (2000/08)[26]Ir. Johan Versieck, “Electro-magnetic Shielding and Protection against ESD by using Stainless Steel Fibres”, http://www.bekaert.com/bft/bekaert_bft_set.htm?BFT_HTM/342.htm~cis_bft_main, 1-14 (2002) [27]Vasant Kale, Mosongo Moukwa, “Electrostatic dissipation control with an organic flooring system”, Journal of Electrostatics, 38, 239-248 (1996) [28]Z. S. Petrovic, B. Martinovic, V. Divjakovic, J. Budinski-Simendic, “Polypropylen Carbon-black Interaction in Conductive Composites”, Journal of Applied Polymer Science, 49, 1659-1669 (1993) [29]T. Ikkala, J. Laakso, K. Vakiparta, E. Virtanen, H. Ruohonen, H. Jarvinen, T. Taka, P. I. Passiniemi, J. E. Osterholm, “Counter-ion Induced Processibility of Polyaniline: Conducting Melt Processible Polymer Blends”, Synthetic Metals, 69, 97-100 (1995)[30]M. Omastova, I. Chodak, J. Pionteck, “Electrical and Mechanical properties of conducting polymer composites”, Synthetic Metals, 102, 1251-1252 (1999)[31]K. B. Cheng, T. H. Ueng, G. Dixon, “Electrostatic Discharge Properties of Stailess Steel /Polyester Woven Fabrics”, Textile Research Journal, 71(8), 732-738 (2000)[32]陳聯泰,金屬纖維不織布,財團法人工業技術研究院網站,http://w3.itri.org.tw/j2100/8907.html[33]李肇升,金屬纖維製造方法解析,金屬工業研究發展中心,http://itisdom.itri.org.tw/52alfe4m4rk_/mdRshar.nsf/8e966102c1b30f25482563c6000fbfc1/0242a8e32566745948256aa7007ef474?OpenDocument (2001/08/140)[34]無線電界雜誌月刊社,EMI電磁波干擾之實務,無線電界雜誌印行,台北,1-25 (1987)[35]J. H. Mnzzy, L. R. Norpoth, and B. B. Varughese, SAMPE Journal, Vol. 25, No. 1, 23-29 (1989) [36]中國靜電資訊網,靜電是怎樣産生的?,http://216.239.35.100/search?q=cache:OPLkqrll8n4C:www.esd.org.cn/problems/1.htm+%E9%9D%9C%E9%9B%BB+%E7%94%A2%E7%94%9F&hl=zh-TW&ie=UTF8[37]A. D. Moore 著,龍宗鐸譯,靜電學,廣文書局印行,台北,9-19 (1970)[38]ASTM-D5077-90[39]AATCC-76-82[40]時振棟,黎安堯,王晦光,電磁波的應用,高等教育出版社,北京,5-14 (1990)[41]大東紡織股份有限公司網站,http://www.tahtong.com.tw/[42]Introduction to System EMI and EMC[43]ASTM D4953-99[44]ASTM-D257[45]Owen J. McAteer, “Electrostatic Discharge Control, Chapter 4”, McGraw Publishing Company, U. S. A., 52-55 (1990)[46]成功大學物理學系天文學實驗室網站http://www.phy.ncku.edu.tw/~astrolab/e_book/telescopes/captions/emwave_spectrum.html
QRCODE
 
 
 
 
 
                                                                                                                                                                                                                                                                                                                                                                                                               
第一頁 上一頁 下一頁 最後一頁 top