• Title/Summary/Keyword: flame-retardant coatings

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Synthesis and Flame Retardant Improvement of PU Coatings Containing Trichloro Modified Polyester/IPDI-Isocyanurate

  • Kim, Ji-Hyun;Keun, Jang-Hyoun;Jung, Choong-Ho;Kim, Seung-Jin;Kim, Young-Geun;Kim, Seong-Kil;Park, Hong-Soo
    • Journal of the Korean Applied Science and Technology
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    • v.25 no.3
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    • pp.332-340
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    • 2008
  • Two component polyurethane (PU) flame retardant coatings were prepared by blending trichloro modified polyesters (TCMPs) and isophorone diisocyanate isocyanurate. TCMPs were synthesized by polycondensation of trichlorobenzoic acid (TCBA), a flame retardant component, with adipic acid, 1,4 butanediol, and trimethylolpropane. The content of TCBA was varied in 10, 20, and 30 wt% for the reaction. Theses new flame retardant coatings showed various properties comparable to other non flame retardant coatings. Moreover, we carried out the combustion test and the flammability test for our flame retardant coatings. The results of vertical burning test for the coatings containing more than 20 wt% of TCBA were determined as no burn. The results of flammability test for the coatings with 20 wt% and 30 wt% of TCBA contents indicated the limiting oxygen index (LOI) values of 26% and 29% respectively, which implied relatively good flame retardancy.

Preparation and Physical Properties of PU Flame-Retardant Coatings Using Modified Polyester Containing Phosphorus/Chlorine and APT-Trimer (인과 염소 함유 변성폴리에스테르와 APT-Trimer에 의한 PU 난연도료의 제조 및 도막물성)

  • Park, Hong-Soo;Jo, Hye-Jin;Shim, Il-Woo;Hahm, Hyun-Sik;Kim, Seung-Jin;Sung, Ki-Chun
    • Journal of the Korean Applied Science and Technology
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    • v.22 no.3
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    • pp.270-280
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    • 2005
  • To maximize a synergy effect in flame-retardancy of flame-retardant coatings, phosphorus and chlorine were introduced in polymer chains. Two-components PU flame-retardant modified polyesters (ABTTC-10C, -20C, -30C) were prepared by curing, at room temperature, of isocyanate (allophanate-trimer) and prepared modified polyesters which contain phosphorus and chlorine. To examine the film properties of the prepared flame-retardant coatings, film specimens were prepared with the prepared coatings. The film properties of ABTTC, ABTTC-10C and ABTTC-20C, which contain 0, 10 and 20wt%, 2,4-dichlorobenzoic acid (2,4-DCBA), respectively, were proved to be good, whereas the film properties of ABTTC-30C, which contains 30wt% 2,4-DCBA, were proved to be a little bit poor. Two kinds of flame retardancy tests, $45^{\circ}$Meckel burner method and LOI method, were performed. With the $45^{\circ}$Meckel burner method, three flame-retardant coatings except ABTTC showed less than 3.4 cm of char length, and showed less than 2 seconds of afterflaming and afterglow. From this result, the prepared flame-retardant coatings were proved to have the 1st grade flame retardancy. With the LOI method, the LOI values of the coatings containing more than 10wt% 2,4-DCBA were higher than 30wt%, which means that the coatings possess good flame-retardancy. From these results, it was found that synergistic effect in flame-retardancy was taken place by the introduced phosphorus and chlorine.

Performance on Flame-Retardant Polyurethane Coatings for Wood and Wood-based Materials (목재 및 목질재료용 난연성 폴리우레탄수지 도막의 난연성능)

  • Kim, Jong-In;Park, Jong-Young;Kong, Young-To;Lee, Byoung-Hoo;Kim, Hyun-Joong;Roh, Jeang-Kwan
    • Journal of the Korean Wood Science and Technology
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    • v.30 no.2
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    • pp.172-179
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    • 2002
  • In this study, two materials treated with a flame retardant were examined for their fire resistance. The first, MDF (medium density fiberboard) was overlaid by an oak sliced veneer, which was either treated by soaking in a 6wt.% solution of flame retardant chemicals (pentabromine-chlorinated paraffin) or non-treated and then was coated with either a flame retardant polyurethane coating or with a common polyurethane coating. The second material, Pinus koraiensis penal was either treated by a spray treatment using a flame retardant solution or non-treated and then was coated with either a flame retardant polyurethane coating or with a common polyurethane coating. Pentabromine-chorinated paraffin chemicals were added (6 part of urethane resin) as the flame retardant chemicals in the polyurethane coatings. In the fire resistance test, the th𝜃(℃·min) decreased with the flame retardant treatment or/and the flame retardant coatings, compared to the untreated sample Weight loss (%) decreased with the flame retardant treatment or/and the flame retardant coatings. The ignition time (sec.) increased and the residual flame time (sec.) decreased with the flame retardant treatment or/and flame retardant coatings. Therefore, the flame retardant treatment or/and flame retardant polyurethane coatings have excellent incombustibility.

Synthesis and Flame - Retardant Optimization of Polyurethane Coatings Containing Trichloro Aromatic Modified Polyesters (트리클로로 방향족 변성폴리에스테르를 함유한 폴리우레탄 난연도료의 합성과 난연최적화)

  • Hwang, Kyu-Hyun;Kim, Dae-Won;Hahm, Hyun-Sik;Park, Hong-Soo
    • Journal of the Korean Applied Science and Technology
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    • v.17 no.4
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    • pp.240-247
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    • 2000
  • Two-component polyurethane flame-retardant coatings were prepared by blending trichloro aromatic modified polyesters(TCMPs) and polyisocyanate. TCMPs were synthesized by polycondensation of trichlorobenzoic acid(TCBA), a flame-retardant component, with adipic acid, 1,4-butanediol, and trimethylolpropane. The content of TCBA was varied in 10, 20, and 30 wt% for the reaction. These new flame-retardant coatings showed various properties comparable to other non-flame-retardant coatings. Moreover, we carried out the combustion test and the flammability test for our flame-retardant coatings. The results of vertical burning test for the coatings containing more than 20 wt% of TCBA were determined as 'no burn'. The results of flammability test for the coatings with 20 wt% and 30 wt% of TCBA contents indicated the limiting oxygen index(LOI) values of 25% and 28% respectively, which implied relatively good flame retardancy.

Effect of Isocyanate Curing Agents on the Physical Properties and Flame Retardancy of Flame-Retardant PU Coatings (이소시아네이트 경화제 종류에 따른 PU 난연도료의 도막물성 및 난연효과)

  • Park, Hong-Soo;Shim, Il-Woo;Jo, Hye-Jin;Hahm, Hyun-Sik;Kim, Young-Geun
    • Journal of the Korean Applied Science and Technology
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    • v.23 no.3
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    • pp.264-271
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    • 2006
  • PU type flame-retardant coatings (TBAO/L-75, TBAOL ; TBAO/N-100, TBAON) were prepared by blending bromine-containing modified polyester (TBAO) which was synthesized in our earlier work. with two kinds of isocyanate curing agents, Desmodur L-75 and Desmodur N-100. Physical properties of the prepared flame-retardant coatings were tested. TBAOL shows better hardness than TBAON, while TBAON shows better viscosity, accelerated weathering resistance, yellowness index and lightness index difference than TBAOL. There were no remarkable differences in fineness of grind, $60^{\circ}$ specular gloss, cross-hatch adhesion, and abrasion resistance of TBAOL and TBAON. There was no discernable difference in flame-retardancy between the two flame-retardant coatings, TBAOL and TBAON. When the content of tribromo acetic acid, which is flame-retarding component, was 30wt% the LOI value was in a range of $29{\sim}30%$, which indicates that the two coatings are good flame-retardant coatings.

Preparation and Characterization of Polyurethane Flame-Retardant Coatings Containing Trichloro Lactone Modified Polyesters (트리클로로 락톤 변성폴리에스테르를 함유한 폴리우레탄 난연도료의 제조 및 난연특성)

  • 정충호;박형진;김성래;우종표;김명수
    • Polymer(Korea)
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    • v.26 no.2
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    • pp.200-208
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    • 2002
  • Two-component polyurethane flame-retardant coatings were prepared by blending trichloro lactone modified polyesters (TAPTS) and isocyanate, Desmodur IL. Polycondensation reaction of trichlorobenzoic acid (TBA) as a flame-retardant component, and adipic acid with trimethylolpropane, polycaprolactone 0201, and 1,4-butanediol gave the corresponding TAPTs. The content of TBA was adjusted from 10 to 30 wt% in our experiment. It was found that various properties of these new flame-retardant coatings were comparable to other non-flame-retardant coatings. We also carried out three different tests for the measurement of flammability of flame -retardant coatings. The results of vertical burning test for the coatings containing more than 20 wt% of TBA were determined as 'no burn'. The results of flammability test for the coatings with 20 and 30 wt% of TBA contents indicated the limiting oxygen index (LOI) values of 25% and 27% respectively, which implied relatively good flame retardancy. They also showed the char length of 3.6-5.2 cm according to $45^{\circ}$ Meckel burner test, which can be classified as the first grade flame-retardant coatings.

Preparation and Flame-Retardant Optimization of PU Coatings Using Pyrophosphoric Modified Polyester/HDI-Biuret (피로포스포릭 변성폴리에스테르/HDI-Biuret에 의한 PU 난연도료의 제조 및 난연최적화)

  • Shin, Dong-Il
    • Journal of the Korean Applied Science and Technology
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    • v.20 no.2
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    • pp.110-117
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    • 2003
  • Pyrophosphoric modified polyesters (TATBs) were synthesized by polycondensation of adipic acid, trimethylolpropane, 1,4-butanediol, and tetramethylene bis(orthophosphate). Two-component PU flame-retardant coatings (TATBCs) were prepared by blending TATBs with HDI-Biuret. Most of the physical properties of the flame-retardant coatings were comparable to those of non-flame-retardant coatings. Coatings containing 10 and 15wt% 1,4-butanediol, TATBC-10C and TATBC-15C were not flammable in the vertical flame-retardancy test.

Preparation and Physical Properties of Polyurethane Flame Retardant Coatings by Phosphate-Containing Modified Polyester/TDI-Adduct (인산염 함유 변성폴리에스테르/TDI-Adduct에 의한 폴리우레탄 난연도료의 제조와 도막 물성)

  • Im, Wan-Bin;Park, Hong-Soo
    • Journal of the Korean Applied Science and Technology
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    • v.15 no.3
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    • pp.77-84
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    • 1998
  • Two-component polyurethane flame retardant coatings were prepared by blending phosphate-containing modified polyesters(PMPEs) and TDI-adduct. PMPEs were synthesized by polycondensation of dimethyl phenylphosphonate, a flame retardant component, with 1,4-butanediol, adipic acid, and trimethylolpropane. The content of dimethyl phenylphosphonate was varied 10, 15, and 20wt% for the reaction. Various physical properties of these new flame retardant coatings were comparable to non-flame retardant coatings. Coatings with 20wt% dimethyl phenylphosphonate did not burn during the vertical burning test.

Physical Properties and Flame Retardant Effects of Polyurethane Coatings Containing Pyrophosphoric Lactone Modified Polyesters (피로포스포릭 락톤 변성폴리에스테르를 함유한 폴리우레탄 난연도료의 물성 및 난연효과)

  • Jung, Choong-Ho;Choi, Yong-Ho;Park, Hong-Soo
    • Journal of the Korean Applied Science and Technology
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    • v.17 no.3
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    • pp.203-211
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    • 2000
  • Pyrophosphoric lactone modified polyester(PATT) that contains two phosphorous functional groups in one unit base resin structure was synthesized to prepare a non-toxic reactive flame retardant coatings. Then the PATT was cured at room temperature with isocyanate, Desmodur IL, to get a two-component polyurethane flame retardant coatings(PIPUC). Comparing the physical properties of the films of PIPUC with the film of non-flame retardant coatings, there was no degradation observed in physical properties by the introduction of a flame-retarding component into the resin. We found that the char lengths measured by $45^{\circ}$Meckel burner method were $3.1{\sim}4.4cm$ and LOI values recorded $27{\sim}30%$. These results indicate that the coatings prepared in this study is good flame retardant one. The surface structure of coatings investigated with SEM does not show any defects and phase separation.

Synthesis and Characterization of PU Flame-Retardant Coatings Using Tribromo Modified Polyesters (트리브로모 변성폴리에스테르를 함유한 PU 난연도료의 합성과 도막 특성화)

  • 박은경;양인모;김대원;황규현;박홍수
    • Polymer(Korea)
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    • v.25 no.3
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    • pp.391-398
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    • 2001
  • Two-component polyurethane (PU) flame-retardant coatings were prepared by blending tribromo modified polyesters ($TBAO_s$) and isocyanate.$TBAO_s$ were synthesized by condensation polymerization of tribromoacetic acid, a flame-retardant component, with 1,4-butanediol, adipic acid, and trimethylolpropane. The content of tribromoacetic acid was varied by 10, 20, and 30 wt% for the reaction. Various physical properties of these new flame-retardant coatings were comparable to nonflame-retardant coatings. Coatings with 20 wt% tribromoacetic acid did not burn during the vertical burning test.

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