한국섬유공학회지 (Textile Science and Engineering)

  • 제46권3호
  • /
  • Pages.181-186
  • /
  • 2009
  • /
  • 1225-1089(pISSN)
  • /
  • 2288-6419(eISSN)
한국섬유공학회 (The Korean Fiber Society)
권호 표지

한지의 인장특성 해석(I) - 이론적 고찰 -

Analysis on the Tensile Property of Hanji(I) - Theoretical Consideration -

  • 박태영 (호원대학교 패션스타일리스트학과) ;
  • 주창환 (충남대학교 바이오응용화학부)
  • 발행 : 2009.06.30
⟨ 이전 논문 다음 논문 ⟩

초록

Owing to formation of fiber fibrillation and application of binder bonding, pressing device, and curing process, the characteristic of prepared Hanji(korean traditional paper) is a thin structure, relatively high tensile strength and stiffness. To predict tensile property of Hanji, in the present work, a theoretical equation including tensile property of fiber, curl factor, orientation distribution function, and Poisson's ratio of Hanji was derived in consideration of fiber stress limit, slippage effect, and thickness. For accurate tensile property of Hanji, new definition of fiber stress limit was introduced. By applying the concept of finer tape yarn and thickness factor, this paper modified the earlier prediction theory of tensile stress of the nonwoven fabrics. In a next paper, the comparative analysis between this theoretical theory and experimental tensile behavior of Hanji will be discussed.

키워드

참고문헌

  1. S. J. Russell, 'Handbook of Nonwovens', CRC Press, NY
  2. P. J. Angelini in 'Principles of Nonwovens', J. E. Riedel Ed., Association of the Nonwoven Fabrics Industry, INDA, Cary, 1993, pp.567-579
  3. W. Albrecht, H. Fuchs, and W. Kittelmann, 'Nonwoven Fabrics', Wiley-VCH, 2003, pp.237-267
  4. J. W. S. Hearle and A. Newton, 'Nonwoven Fabric Studies. XIV. Derivation of Generalized Mechanics by the Energy Method', Text Res J, 1967, 37, 778-797 https://doi.org/10.1177/004051756703700908
  5. J. W. S. Hearle and A. Newton, 'Nonwoven Fabric Studies, Part XV: The Application of the Fiber Network Theory', Text Res J, 1968, 38, 343-352 https://doi.org/10.1177/004051756803800404
  6. J. W. S. Hearle and V. Ozsanlav, 'Studies of Adhesivebonded Nonwoven Fabric, Part I: A Theoretical Model of Tensile Response Incorporating Binder Deformation', J Text Inst, 1979, 70, 19-28 https://doi.org/10.1080/00405007908631511
  7. J. W. S. Hearle and V. Ozsanlav, 'Studies of Adhesivebonded Nonwoven Fabric. IV. A Comparison of Theoretical Prediction and Experimental Observation', J Text Inst, 1982, 73, 1-12 https://doi.org/10.1080/00405008208658904
  8. T. Y. Park and C. W. Joo, 'Studies on the Tensile Mechanism of Spunlace Nonwovens (I) -Theoretical Consideration', J Korean Fiber Soc, 1994, 31, 189-197
  9. P. N. Britton, A. J. Sampson, C. F. Elliott, H. W. Graben, and W. E. Gettys, 'Computer Simulation of the Mechanical Properties of Nonwoven Fabrics. I. The Method', Text Res J, 1983, 53, 363-368 https://doi.org/10.1177/004051758305300607
  10. P. N. Britton, A. J. Sampson, and W. E. Gettys, 'Computer Simulation of the Mechanical Properties of Nonwoven Fabrics. III. Fabric Failure', Text Res J, 1984, 54, 425-428 https://doi.org/10.1177/004051758405400702
  11. T. H. Grindstaff and S. M. Hansen, 'Computer Model for Predicting Point-bonded Nonwoven Fabric Strength', Text Res J, 1986, 56, 516-519 https://doi.org/10.1177/004051758605600810
  12. J. W. S. Hearle, 'Failure Mechanism in Adhesive-bonded and Needled Fabrics', Nonwovens '71, The Textile Press, Manchester, England, 1971, pp.91-102
  13. J. W. S. Hearle and A. T. Purdy, 'On Resistance to Slippage in Needled Fabrics', Fiber Sci Technol, 1978, 11, 127-144 https://doi.org/10.1016/0015-0568(78)90005-2