Textile Science and Engineering (한국섬유공학회지)

The Korean Fiber Society (한국섬유공학회)
권호 표지

High Performance Ultrafine Fiber Wiping Cloth

고수축 극세사 와이퍼의 고기능화

  • Published : 2009.10.31
⟨ Previous Next ⟩

Abstract

The optimization of the high shrinking process has been performed for the high performance wiping cloth having excellent performance, which is based on the microfiber composed of the nylon and polyester in the TFT-LCD industry. To satisfy the required performance as an industrial wiping cloth in the TFT-LCD area, the wiper has excellent dust removal ability. Oil and water absorbing performance has a less dust particle generated by the solvent and the anti-scratch property on the surface of LCD product. These requirements could be achieved by high shrinking treatment for a microfiber knitted fabric to the selected best conditions. In this study, 10% of benzyl alcohol concentration and $110{\sim}120^{\circ}C$ of heating temperature were selected as the best treatment condition through the experiment considering all the related parameters such as temperature, concentration of agent and used fiber type. Then, Shrinking, SEM, and tensile strength performance were analyzed and compared with that commercialized products, being widely used in TFT-LCD area.

Keywords

References

  1. 문철환 외, '산업용 섬유소재 기술세미나', 한국생산기술연구원, 2009
  2. 류동일 외, '산업섬유신소재' 전남대학교 출판부, 1999
  3. '반도체 및 전자산업용 초극세사 wiper 개발', 산업자원부, 2002
  4. '반고체 공정기술 교육 2003', Semi Education, Semiconductor, Equipment and Materials International, 2003
  5. S. H. Kim, S. J. Kim, and K. W. Oh, 'Water Absorption and Mechanical Properties of Split Type N/P Micro Conjugate Pile-Knit', Text Res J, 2003, 73(6), 489-495 https://doi.org/10.1177/004051750307300605
  6. S. H. Kim, J. H. Lee, D. Y. Lim, and H. Y. Jeon, 'Dependence of Sorption Properties of Fibrous Assemblies on Their Fabrication and Material Characteristics', Text Res J, 2003, 73(5), 455-460 https://doi.org/10.1177/004051750307300514
  7. M. J. Park, S. H. Kim, S. J. Kim, S. H. Jeong, and J. Y. Jaung, 'Effect of Splitting and Finishing on Absorption/Adsorption Properties of the Split-type Polyester Microfiber Fabrics', Text Res J, 2001, 71(9), 831-840
  8. M. S. Lee, S. J. Kim, and K. S. Park, 'Effect of False Twist Processing Conditions on the Physical Properties of PET DTY', J Korean Soc Dyers & Finishers, 2003, 15(6), 33-38
  9. J. H. Song, J. S. Kim, and T. J. Kang, 'Effect of the Thermal Shrinkage of PET Filament Yarn on the Dimensional Properties of Woven Fabric(I) -Shrinkage Characteristics of PET Drawn Yarn', J Korean Fiber Soc, 1999, 36(12), 902-907
  10. J. H. Song, J. S. Kim, and T. J. Kang, 'The Effect of Thermal Shrinkage of PET Filament Y arn', J Korean Fiber Soc, 2000, 36(6), 339-345
  11. S. J. Kim, A. G. Oh, D. H. Cho, D. H. Jang, and J. S. Song, 'Study on Correlation between Fabric Structural Parameter and Processing Shrinkage of Polyester Woven Fabric', J Korean Fiber Soc, 1995 32(5), 480-487
  12. 김우섭 , '초고밀도 편직물', KS Patent, 1989-0004987(1989)
  13. J. H. Lee, S. H. Kim, K. J. Lee, D. Y. Lim, and H. Y. Jeon, 'Determination of Absorption Properties of Spilt-type Micro Fiber Fabrics by Measuring the Change in Color Depth', Text Res J, 2004, 74, 271-278 https://doi.org/10.1177/004051750407400315
  14. 김승진, 사가공 공정기술', RRC 기술자료, 8, 산업자원부, 1996
  15. 김승진, '사가공 공정기술', RRC 기술자료, 9, 산업자원부, 1997
  16. 김승진, '폴리에스터와 나일론 가공사의 물성과 제조기술(I)', RRC 기술자료, 9, 산업자원부, 1998
  17. 김승진, '폴리에스터와 나일론 가공사의 물성과 제조기술(II)', RRC 기술자료, 9, 산업자원부, 1998
  18. J. W. S. Hearle, L. Hollick, and D. K. Wilson, 'Yarn Texturing Technology', Woodhead Publishing Ltd., 2001
  19. A. Demir and H. M. Behery, 'Synthetic Filament Yarn: Texturing Technology', Prentice Hall, 1997
  20. 김갑진 외, '인조섬유', 한국섬유공학회편저, 형설출판사, 1994
  21. J. W. S. Hearle, 'Fiber Structure', Textile institute, 1963