Article
  • Physical Properties and Flame-Retardant Effects of Polyurethane Coatings Containing Pyrophosphoric Lactone Modified Polyesters
  • Chung DJ, Kim SR, Park HJ, Park HS, Kim SJ
  • 파이로포스포릭 락톤 변성 폴리에스터를 함유한 폴리우레탄 도료의 물성 및 난연 효과
  • 정동진, 김성래, 박형진, 박홍수, 김승진
Abstract
Pyrophosphoric lactone modified polyester (PATT) containing two phosphorous functional groups in one unit structure was synthesized to prepare a non-toxic reactive flame-retardant coatings. Then the PATT was cured at room temperature with isocyanate, toluene diisocyanate-isocyanurate, to get a two-component polyurethane flame-retardant coatings (PIPUC). Comparing physical properties of the films of PIPUC with those of film of non-flame-retardant coatings, there was no deterioration observed in physical properties by the introduction of a flame-retarding component into the resin. We found that the char lengths measured by 45° Meckel burner method were 3.1∼4.4 cm and LOI values recorded 27∼30%. These results indicate that the coating prepared in this study is a good flame-retardant. The surface structure of coatings investigated with SEM does not show any defects and phase separation.

무독성의 반응형 난연 도료를 제조할 목적으로 모체수지 1개의 구조단위 속에 2개의 인산기를 보유한 파이로포스포릭 락톤 변성 폴리에스터 (PATT)를 합성하고, PATT에 이소시아네이트인 toluene diisocyanate-isocyanurate를 상온경화시켜 2성분계 폴리우레탄 난연 도료 (PIPUC)를 제조하였다. PIPUC로서 도막제작 후 비난연 도료와의 도막물성을 비교한 결과 난연 성분 도입에 따른 난연 도료의 물성이 저하되지 않음을 알았다. 난연성 시험 중 45° Meckel burner 법에서는 탄화길이가 3.1∼4.4 cm를, LOI법에서는 LOI 27∼30%를 각각 나타냄으로써 양호한 난연 효과를 보여주었고, SEM에 의한 표면 도막을 관찰한 결과 도막의 결함이나 상분리 현상이 생기지 않음을 관찰하였다.

Keywords: non-toxicity; reactive type; polyurethane coatings; flame retardancy

References
  • 1. Horrocks AR, Price DFire Retardant Materials, Woodhead Pub. Ltd., Cambridge, p. 1-30 (2001)
  •  
  • 2. Anon H, Ind. Finish, 66, 24 (1990)
  •  
  • 3. Shoemaker SH, J. Coat. Technol., 62(787), 49 (1990)
  •  
  • 4. Park HS, Ha KJ, Keun JH, Kim TO, J. Appl. Polym. Sci., 70(5), 913 (1998)
  •  
  • 5. Okano Y, Oosuga S, Oomori KJpn Patent, 07109377 A2 (1995)
  •  
  • 6. Weil E, McSwigan B, J. Coat. Technol., 66(839), 75 (1994)
  •  
  • 7. Park HS, Kwon SY, Seo KJ, Im WB, Wu JP, Kim SK, J. Coat. Technol., 71(899), 59 (1999)
  •  
  • 8. Kordomenos PI, Frisch KC, Xiao HX, Sabbah N, J. Coat. Technol., 57(723), 23 (1985)
  •  
  • 9. Yoo HJ, Lee HJ, J. Korean Fiber Soc., 34, 452 (1997)
  •  
  • 10. Keun JHPh.D. Dissertation, Myongji Univ., Yongin, Korea, p. 16-17 (1994)
  •  
  • 11. Park Hs, Pyoun MS, J. Korean Oil Chem. Soc., 7(2), 63 (1990)
  •  
  • 12. Kuryla WC, Papa AJFlame Retardancy of POlymeric Materials, Marcel Dekker, Inc., New York, Vol. 4, p. 6-8 (1982)
  •  
  • 13. Park HS, Kim DW, Hwang KH, Yoon BS, Wu JP, Park JW, Hahm HS, Im WB, J. Appl. Polym. Sci., 80(12), 2316 (2001)
  •  
  • 14. Wismer M, Poerge HP, Mosso PR, Foote JFU.S. Patent, 3,407,150 (1968)
  •  
  • 15. Misev TA, J. Coat. Technol., 61(772), 49 (1989)
  •  
  • 16. Erciyes AT, Erkal FS, Kabasakal OS, J. Coat. Technol., 64(815), 61 (1992)
  •  
  • 17. Dorrego F, Luxan MP, Ruiz M, J. Oil Colour Chem. Assoc., 77(2), 70 (1994)
  •  
  • 18. Baker RF, Knight SL, Mol. Paint Coat., 76(7), 26 (1986)
  •  
  • 19. Lanson HJEncyclopedia of Polymer Science and Engineering, 2nd ed., John Wiley & Sons, New York, Vol. 1, p. 656 (1985)
  •  
  • 20. Kochanowski J, Wambach ADU.S. Patent, 4,104,242 (1978)
  •  
  • 21. Kuryla WC, Papa AJFlame Retardancy of Polymeric Materials, Marcel Dekker, Inc., New York, Vol. 3, p. 1-61 (1980)
  •  
  • 22. Green J, Plast. Compounding, 10(3), 57 (1987)
  •  
  • 23. Calbo LJHandbook of Coating Additives, Marcel Dekker Inc., New York, Vol. 1, p. 125 (1992)
  •  
  • Polymer(Korea) 폴리머
  • Frequency : Bimonthly(odd)
    ISSN 0379-153X(Print)
    ISSN 2234-8077(Online)
    Abbr. Polym. Korea
  • 2023 Impact Factor : 0.4
  • Indexed in SCIE

This Article

  • 2003; 27(3): 169-175

    Published online May 25, 2003

  • Received on Nov 18, 2002
  • Accepted on Feb 18, 2003