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SIMULTANEOUS DYEING AND FLAME RETARDANT FINISHING OF WOOL FABRIC WITH ACID METAL COMPLEX DYES AND PHYTIC ACID

Year 2016, Volume: 26 Issue: 3, 303 - 306, 30.09.2016

Xian-Wei Cheng Ren-Cheng Tang Jin-ping Guan Guoqiang Chen Xu-hong Yang

Abstract

A potential flame retardant phytic acid (PA) was applied to wool fabric together with acid metal complex dyes in order to prepare coloured and flame retardant textile materials, and the dyeing properties of the dyes and the flame retardant effect of PA on wool fabric were studied. The treated wool fabrics exhibited much higher flame retardancy than pure wool fabric according to limiting oxygen index and vertical burning tests. The thermal stability of wool fabrics was assessed by thermogravimetric analysis, and the results demonstrated that the flame retardant mechanism of the treated wool fabrics involves a significant condensed-phase activity. Despite the competitive effect of the adsorption between PA and the dyes on wool, it is feasible to apply PA and acid metal complex dyes to wool in one bath.

Keywords

Wool Flame retardant Phytic acid Dyeing Thermal stability

References

  • Forouharshad M., Montazer M., Moghaddam M.B., Saligheh O. and Roudbari B.Y., 2012, “Optimization of zirconium acetate on the flame retardant
  • properties of wool”, Journal of Applied Polymer Science, Vol: 125(2), pp: 1261–1266.

SIMULTANEOUS DYEING AND FLAME RETARDANT FINISHING OF WOOL FABRIC WITH ACID METAL COMPLEX DYES AND PHYTIC ACID

Year 2016, Volume: 26 Issue: 3, 303 - 306, 30.09.2016

Xian-Wei Cheng Ren-Cheng Tang Jin-ping Guan Guoqiang Chen Xu-hong Yang

Abstract

A potential flame retardant phytic acid (PA) was applied to wool fabric together with acid metal complex dyes in order to prepare coloured and flame retardant textile materials, and the dyeing properties of the dyes and the flame retardant effect of PA on wool fabric were studied. The treated wool fabrics exhibited much higher flame retardancy than pure wool fabric according to limiting oxygen index and vertical burning tests. The thermal stability of wool fabrics was assessed by thermogravimetric analysis, and the results demonstrated that the flame retardant mechanism of the treated wool fabrics involves a significant condensed-phase activity. Despite the competitive effect of the adsorption between PA and the dyes on wool, it is feasible to apply PA and acid metal complex dyes to wool in one bath.

Keywords

Wool Flame retardant Phytic acid Dyeing Thermal stability

References

  • Forouharshad M., Montazer M., Moghaddam M.B., Saligheh O. and Roudbari B.Y., 2012, “Optimization of zirconium acetate on the flame retardant
  • properties of wool”, Journal of Applied Polymer Science, Vol: 125(2), pp: 1261–1266.
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Details

Journal Section Articles
Authors

Xian-Wei Cheng This is me

Ren-Cheng Tang This is me

Jin-ping Guan This is me

Guoqiang Chen This is me

Xu-hong Yang This is me

Publication Date September 30, 2016
Submission Date October 12, 2016
Published in Issue Year 2016 Volume: 26 Issue: 3

Cite

APA Cheng, X.-W., Tang, R.-C., Guan, J.-p., Chen, G., et al. (2016). SIMULTANEOUS DYEING AND FLAME RETARDANT FINISHING OF WOOL FABRIC WITH ACID METAL COMPLEX DYES AND PHYTIC ACID. Textile and Apparel, 26(3), 303-306.

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