化工进展
化工進展
화공진전
CHEMICAL INDUSTRY AND ENGINEERING PROGRESS
2014年
1期
198-203
,共6页
钱伟%李湘洲%吴志平%房丛丛%殷凯%贾可敬
錢偉%李湘洲%吳誌平%房叢叢%慇凱%賈可敬
전위%리상주%오지평%방총총%은개%가가경
茶皂素%膨胀型阻燃剂%阻燃涂料%阻燃性能%热解性能
茶皂素%膨脹型阻燃劑%阻燃塗料%阻燃性能%熱解性能
다조소%팽창형조연제%조연도료%조연성능%열해성능
tea saponin%intumescent flame retardant%flame retardant coatings%flame retardance%pyrolysis performance
采用多羟基、多羧基的活性天然产物茶皂素为原料,与聚磷酸铵和季戊四醇在一定条件下反应,制备一种聚磷酸酯类茶皂素基三位一体新型环保膨胀型阻燃剂。采用傅里叶红外分析技术对阻燃剂进行了结构表征,采用综合热分析仪对阻燃剂的热降解性能进行了研究。结果表明,茶皂素与聚磷酸铵、季戊四醇发生反应,生成聚磷酸酯类茶皂素基膨胀型阻燃剂,且该阻燃剂具有良好的热稳定性,降解热释放较小,高温残留率高,最终的质量残留率高达30.77%。将制备阻燃剂用于阻燃涂料中,并采用氧指数测试仪和锥形量热仪研究了阻燃涂料的阻燃性能和热解性能。研究表明,茶皂素基三位一体膨胀型阻燃剂能显著提高涂料的阻燃性能,阻燃涂料的氧指数值高达34.2%,耐火时间为11.1 min,且锥形量热实验中,该阻燃涂料试样的平均热释放速率(m-HRR)为36.18 kW/m2,总热释放量(THR)为5.25 kJ/m2,平均有效燃烧热(m-EHC)为5.11 kJ/kg,与含复合型阻燃剂的阻燃涂料试样相比,阻燃性能得到极大提高。该制备阻燃剂不含卤素,集三源一体,具有阻燃性能优越,相容性能良好,高效环保等优点。
採用多羥基、多羧基的活性天然產物茶皂素為原料,與聚燐痠銨和季戊四醇在一定條件下反應,製備一種聚燐痠酯類茶皂素基三位一體新型環保膨脹型阻燃劑。採用傅裏葉紅外分析技術對阻燃劑進行瞭結構錶徵,採用綜閤熱分析儀對阻燃劑的熱降解性能進行瞭研究。結果錶明,茶皂素與聚燐痠銨、季戊四醇髮生反應,生成聚燐痠酯類茶皂素基膨脹型阻燃劑,且該阻燃劑具有良好的熱穩定性,降解熱釋放較小,高溫殘留率高,最終的質量殘留率高達30.77%。將製備阻燃劑用于阻燃塗料中,併採用氧指數測試儀和錐形量熱儀研究瞭阻燃塗料的阻燃性能和熱解性能。研究錶明,茶皂素基三位一體膨脹型阻燃劑能顯著提高塗料的阻燃性能,阻燃塗料的氧指數值高達34.2%,耐火時間為11.1 min,且錐形量熱實驗中,該阻燃塗料試樣的平均熱釋放速率(m-HRR)為36.18 kW/m2,總熱釋放量(THR)為5.25 kJ/m2,平均有效燃燒熱(m-EHC)為5.11 kJ/kg,與含複閤型阻燃劑的阻燃塗料試樣相比,阻燃性能得到極大提高。該製備阻燃劑不含滷素,集三源一體,具有阻燃性能優越,相容性能良好,高效環保等優點。
채용다간기、다최기적활성천연산물다조소위원료,여취린산안화계무사순재일정조건하반응,제비일충취린산지류다조소기삼위일체신형배보팽창형조연제。채용부리협홍외분석기술대조연제진행료결구표정,채용종합열분석의대조연제적열강해성능진행료연구。결과표명,다조소여취린산안、계무사순발생반응,생성취린산지류다조소기팽창형조연제,차해조연제구유량호적열은정성,강해열석방교소,고온잔류솔고,최종적질량잔류솔고체30.77%。장제비조연제용우조연도료중,병채용양지수측시의화추형량열의연구료조연도료적조연성능화열해성능。연구표명,다조소기삼위일체팽창형조연제능현저제고도료적조연성능,조연도료적양지수치고체34.2%,내화시간위11.1 min,차추형량열실험중,해조연도료시양적평균열석방속솔(m-HRR)위36.18 kW/m2,총열석방량(THR)위5.25 kJ/m2,평균유효연소열(m-EHC)위5.11 kJ/kg,여함복합형조연제적조연도료시양상비,조연성능득도겁대제고。해제비조연제불함서소,집삼원일체,구유조연성능우월,상용성능량호,고효배보등우점。
A novel polyphosphoester class trinity tea saponin based environmentally friendly intumescent flame retardant(TTS-IFR)was prepared by using the active natural product tea saponin containing multiple hydroxyl and carboxyl radicals as the raw material reacting with ammonium polyphosphate and pentaerythritol under specific conditions. Its structure characterization and thermal degradation properties were studied with FTIR spectrometer and simultaneous thermal analyzer. Tea saponin reacted with ammonium polyphosphate and pentaerythritol,and generated polyphosphoester class tea saponin-based trinity intumescent flame retardant with good thermal stability,small degradation heat release,large residual rate at high temperature,and final residual rate up to 30.77%. In addition,the tea saponin-based trinity intumescent flame retardant was used in flame retardant coatings,and the flame retardance and pyrolysis performance of flame retardant coatings was evaluated with oxygen index tester and cone calorimeter. Tea saponin based trinity intumescent flame retardant significantly improved the performance of flame-retardant coatings,and LOI value of the flame retardant coating was 34.2%,refractory time was 11.1 min. In cone calorimeter experiments,the flame retardant coatings sample had low mean heat release rate (m-HRR) for 36.18 kW/m2,total heat release (THR) for 5.25 kJ/m2 and mean effective heat of combustion (m-EHC) for only 5.11 kJ/kg,and the flame retardant performance was greatly improved compared with flame retardant coatings containing unreacted flame retardant. This flame retardant was free from halogen and consisted of three source to form an organic whole,so it had advantages of excellent flame retardance,good compatibility with polymer,high efficiency and environmental friendliness.