Textile Science and Engineering (한국섬유공학회지)

The Korean Fiber Society (한국섬유공학회)
권호 표지

Cationic Dyeable Treatment of PET and PTT Fabrics by Continuous UV/O$_3$ Irradiation

연속식 자외선/오존 조사처리에 의한 PET와 PTT 직물의 양이온성 염료 가염화

  • 장진호 (금오공과대학교 신소재시스템공학부 섬유패션공학전공) ;
  • 김민지 (금오공과대학교 신소재시스템공학부 섬유패션공학전공) ;
  • 정영진 (금오공과대학교 신소재시스템공학부 섬유패션공학전공)
  • Published : 2003.10.01
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Abstract

Continuous surface treatments of PET and PTT fabrics were carried out to modify their dyeability to four cationic dyes using an electrodeless UV bulb for different periods of time. ESCA analysis of the irradiated fabrics showed higher O/C ratio than that of the untreated fabrics indicating photooxidation of the outer surface layer. PET fabric was photo-oxidized more readily than PTT, while color change was more pronounced in the PTT fabric compared with PET fabric as shown by larger yellowness increase and color difference values. Four cationic dyes, including two hemicyanine dyes and two triphenylmethane dyes, were used to assess the dyeability to the modified polyester fabrics. The irradiated fabrics became more dyeable to cationic dyes with increasing treatment time due to the electrostatic or acid/base interactions. While increase in cationic dyeability was more noticeable in the treated PTT fabric, overall dyeability to cationic dyes was higher in the case of the PET fabrics as expected. Among the dyes used, the triphenylmethane dyes showed higher dyeability to the cationic dyeable polyester fabrics compared with the hemicyanines. Surprisingly laundering and rub colorfastness of the polyester fabrics dyed with cationic dyes were good even though the treatment may only change the surface layer of the fabrics.

Keywords

References

  1. Polymer Surface Modification and Characterization C.M.Chan
  2. Polymer Surface: from Physics to Technology F.Garbassi;M.Morra;E.Occhiello
  3. J. Mater. Process. Technol. v.103 Surface Structuring of Poly(ethylene terphthalate) Fibers with a UV Eximer Laser and Low Temperature Plasma W.Wong;K.Chan;K.K.W.Yeung;Y.M.Tsang;K.S.Lau
  4. Nuclear Instruments and Methods in Physics Research v.B105 Processing of Polymer Surfaces by Laser Radiation E.W.Kreutz;H.Frerichs;J.Stricker;D.A.Wesner
  5. J. Korean Fiber Soc. v.39 Continuous Surface Modification of PET Film via UV Irradiation: Effect of Spectral Irradiance J.H.Jang;S.I.Eom;Y.H.Kim
  6. J. Krean Soc. Dyers & Finshers v.13 no.4 Modification of Dyeing Property of Polyester Fabrics by UV irradiation J.S.Bae;I.H.Kim
  7. J. Krean Fiber Soc. v.18 A Study on Dyeing Mechanism of Cationic Dyeable Polyester Fibres with Cationic Dyes K.W.Jung;Y.W.Huh
  8. Text. Chem. Color. v.28 Ionomeric Polyester Fiber B.R.Rao;K.V.Datye
  9. FIiber Technol. Industry v.6 no.1/2 PTT-New Fibers in 21C J.C.Kim;T.H.Oh;J.H.Hyun
  10. FIiber Technol. Industry v.6 no.1/2 Development and Trend of Ultra Fine Denier Fiber J.S.Kim
  11. Surface Characteristics of Fibers and Textiles Y.Heish;A.T.Hubbard(ed.)
  12. Mechanisms of Photophysical Processes and Photochemical Reaction in Polymers J.F.Rabek
  13. The Chemisty of Colour Application R.M.Christie;R.R.Mather;R.H.Wardman
  14. Organic Chemistry in Colour P.F.Gordon;P.Gregory