Textile Coloration and Finishing (한국염색가공학회지)

The Korean Society of Dyers and Finishers (한국염색가공학회)
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The Synthesis of Diphenyl ethanolamidophosphate (DPEAP) and the Flame Retardancy of Cotton Fabric

Diphenyl ethanolamidophosphate의 합성과 면섬유에 대한 방염성

  • Huh, Man Woo (Dept. of Textile Eng., Kyungpook Sanup Univ., Kyungsan, Korea) ;
  • Yoon, Jong Ho (Dept. of Industrial Chemisry, Kyungpook Sanup Univ., Kyungsan, Korea) ;
  • Cho, Yong Suk (Dept. of Textiles and Clothing, Catholic Univ. of Taegu-Hyosung,) ;
  • Kim, Young Suk (Dept. of Textiles and Clothing, Catholic Univ. of Taegu-Hyosung,) ;
  • Lim, Hak Sang (Kyungsan, Korea Dept. of Environment Eng., Seamyung Univ., Chechun, Korea)
  • Published : 1996.04.01
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Abstract

Diphenyl ethanolamidophosphate(DPEAD) was synthesized for the purpose of developing a new flame retardant for cotton fabric. As the intermediate material was used diphenyl chlorophosphate(DPCP) and it was synthesized by using phosphorus oxychloride and phenol as the starting materials. The final product DPEAP was obtained by the reaction of DPCP and ethanolamine. The flame retardancy of cotton fabrics treated by DPEAP through pad-dry-cure(PDC) process was examined at various conditions. The physical property change of the DPEAP treated cotton fabrics were investigated by examining the drape stiffness, the wrinkle recovery, and the tensile strength. The results are summarized as follows: (1) DPEAP has shown excellent flame retardancy on cotton fabrics in comparison to other flame retardants for cotton fabrics available commercially. (2) The optimal condition for PDC process found was that the curing temperature was 16$0^{\circ}C$, the DPEAP concentration was 10%, the catalyst $({NH_{4})_{2}HPO_{4}$ concentration was 7.0%, and the fixing agent hexamethylol melamine (HMM)/DPEAP weight ratio was 1/8. (3) The wrinkle recovery of the processed fabrics increased with increasing DPEAP concentration. (4) The drape stiffness of the cotton fabrics treated by DPEAP have shown essentially no change until increasing DPEAP concentration to 15 %, however DPEAP concentration exceeds 20% the drape stiffness increased drastically with increasing DPEAP concentration. When DPEAP concentration is kept constant the drape stiffness increased with increasing $({NH_{4})_{2}HPO_{4}$ concentration and HMM/DPEAP weight ratio. (5) The tensile strength of the processed fabrics was lower than that of untreated fabrics, but the tensile strength retention increased with increasing DPEAP concentration.

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References

  1. 科學と工業 v.60 no.9 黑田大介;高砂光正;河野宏彰;福角京子
  2. Flame Resistant Fabrics A. Williams
  3. 纖維と防炎 次郞丸誠男
  4. Functional Finishes v.Ⅱ M. Lewin;S. B. Sello
  5. J. Appl. Polym Sci. v.24 N. Inagaki;K. Katusura
  6. Flame Retardant Polymeric Materials v.Ⅰ M. Lewin;S. M. Atlas;E. M. Pearce
  7. Text. Chem. Color. v.10 G. J. Leitner;W. L. Coble
  8. 特公(日本) 昭44-156399 福田健詰厚夫
  9. U.S. Pat. 3, 526613
  10. Text. Res. J. v.41 J. Dipietro, Stepniczka;R. C. Nametz
  11. J. Appl. Polym. Sci. v.17 J. E. Bostic;K. N. Yen;R. H. Baker
  12. ポりマ-の難燃化 西澤仁
  13. ポりマ-の難燃化 西澤 仁
  14. 纖維と防炎 岡部龍平
  15. 纖維と防炎 長竹孝夫
  16. Text. Res. J. v.52 A. W. Frank;D. J. Daigle;S. L. Vail
  17. Text. Res. J. v.41 D. J. Daigle;W. A. Reeves;J. V. Beninate;G. L. Drake, Jr.
  18. Text. Res. J. v.42 D. J. Donaldson;F. L. Normand;G. L. Drake, Jr.;W. A. Reeves
  19. 纖維製品消費科學 v.13 根本嘉郞;小川吉克
  20. Text. Res. J. v.60 C. E. Morris;Leon Seagal
  21. Reagents for Organic Synthesis v.1 L. F. Fieser;M. Fieser
  22. 한국섬유공학회지 v.26 조환;이광우;조인술;허만우;조용석;장두상;김수창
  23. The Infra-red Spectra of Complex Molecules L. J. Bellamy
  24. The Aldrich Library of NMR Spectra v.Ⅹ C. J. Pouchert;J. R. Campbell
  25. 有機化合物辭曲 社團法人 有機合成化學