工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2014年
6期
88-92
,共5页
邓前军%张五一%陈东初%袁毅桦%丁森林
鄧前軍%張五一%陳東初%袁毅樺%丁森林
산전군%장오일%진동초%원의화%정삼림
反应型阻燃剂%N,N-二(2-羟异丙基)氨甲基膦酸二乙酯%聚氨酯%热降解
反應型阻燃劑%N,N-二(2-羥異丙基)氨甲基膦痠二乙酯%聚氨酯%熱降解
반응형조연제%N,N-이(2-간이병기)안갑기련산이을지%취안지%열강해
reactive flame retardant%N,N-bis(2-hydroxyisopropyl)-aminomethyl phosphonic acid diethyl ester%polyurethane%thermal degradation
以多聚甲醛、二异丙醇胺和亚磷酸二乙酯为原料,通过两步反应合成了反应型阻燃剂N,N-二(2-羟异丙基)氨甲基膦酸二乙酯(HPAPE),采用单因素法得到了合成中间体5-甲基-3-(2-羟异丙基)-1,3-恶唑的最佳条件:反应时间为4 h,反应温度为60℃,多聚甲醛与二异丙醇胺的摩尔比为1.2∶1.0,蒸馏压力为18 kPa;利用正交试验得到了合成阻燃剂HPAPE的最佳条件:温度为50℃,时间为5.0 h,反应物料MHPZ与亚磷酸二乙酯的摩尔比为1.0∶1.1,催化剂强酸性阳离子交换树脂用量为反应物料总质量的0.3%。利用极限氧指数(LOI)、垂直燃烧法测试了HPAPE阻燃聚氨酯(PUR)的性能,采用热重分析研究了HPAPE阻燃PUR的热分解过程及成炭性能,并用Proteus Analysis软件计算了其动力学参数热分解活化能。结果发现,HPAPE质量分数为24%时,HPAPE阻燃PUR的LOI为26.2%,阻燃级别可达UL94 V-0级,说明阻燃剂HPAPE对PUR具有明显的阻燃效果。在700℃时,HPAPE阻燃PUR的质量保持率比PUR高4.91%,动力学参数热分解活化能比PUR提高了32.40 kJ/(mol · K),表明阻燃剂HPAPE对PUR的热降解具有加速成炭的功效。
以多聚甲醛、二異丙醇胺和亞燐痠二乙酯為原料,通過兩步反應閤成瞭反應型阻燃劑N,N-二(2-羥異丙基)氨甲基膦痠二乙酯(HPAPE),採用單因素法得到瞭閤成中間體5-甲基-3-(2-羥異丙基)-1,3-噁唑的最佳條件:反應時間為4 h,反應溫度為60℃,多聚甲醛與二異丙醇胺的摩爾比為1.2∶1.0,蒸餾壓力為18 kPa;利用正交試驗得到瞭閤成阻燃劑HPAPE的最佳條件:溫度為50℃,時間為5.0 h,反應物料MHPZ與亞燐痠二乙酯的摩爾比為1.0∶1.1,催化劑彊痠性暘離子交換樹脂用量為反應物料總質量的0.3%。利用極限氧指數(LOI)、垂直燃燒法測試瞭HPAPE阻燃聚氨酯(PUR)的性能,採用熱重分析研究瞭HPAPE阻燃PUR的熱分解過程及成炭性能,併用Proteus Analysis軟件計算瞭其動力學參數熱分解活化能。結果髮現,HPAPE質量分數為24%時,HPAPE阻燃PUR的LOI為26.2%,阻燃級彆可達UL94 V-0級,說明阻燃劑HPAPE對PUR具有明顯的阻燃效果。在700℃時,HPAPE阻燃PUR的質量保持率比PUR高4.91%,動力學參數熱分解活化能比PUR提高瞭32.40 kJ/(mol · K),錶明阻燃劑HPAPE對PUR的熱降解具有加速成炭的功效。
이다취갑철、이이병순알화아린산이을지위원료,통과량보반응합성료반응형조연제N,N-이(2-간이병기)안갑기련산이을지(HPAPE),채용단인소법득도료합성중간체5-갑기-3-(2-간이병기)-1,3-악서적최가조건:반응시간위4 h,반응온도위60℃,다취갑철여이이병순알적마이비위1.2∶1.0,증류압력위18 kPa;이용정교시험득도료합성조연제HPAPE적최가조건:온도위50℃,시간위5.0 h,반응물료MHPZ여아린산이을지적마이비위1.0∶1.1,최화제강산성양리자교환수지용량위반응물료총질량적0.3%。이용겁한양지수(LOI)、수직연소법측시료HPAPE조연취안지(PUR)적성능,채용열중분석연구료HPAPE조연PUR적열분해과정급성탄성능,병용Proteus Analysis연건계산료기동역학삼수열분해활화능。결과발현,HPAPE질량분수위24%시,HPAPE조연PUR적LOI위26.2%,조연급별가체UL94 V-0급,설명조연제HPAPE대PUR구유명현적조연효과。재700℃시,HPAPE조연PUR적질량보지솔비PUR고4.91%,동역학삼수열분해활화능비PUR제고료32.40 kJ/(mol · K),표명조연제HPAPE대PUR적열강해구유가속성탄적공효。
A reactive flame retardant N,N-bis(2-hydroxyisopropyl)-aminomethyl phosphonic acid diethyl ester(HPAPE)was synthesized via paraformaldehyde,diisopropanolamine,diethyl phosphite by two step reaction. The best reaction conditions of 5-methy-3-(2-hydroxyisopropyl)-1,3-oxazole(MHPZ) were obtained by the single factor experiment:the reaction time is 4 h, the reaction temperature is 60℃,the mole ratio of paraformaldehyde and diisopropanolamine is 1.2∶1.0,the distillation pressure is 18 kPa. The best reaction conditions of HPAPE were found by the orthogonal experiment:the temperature is 50℃,the time is 5.0 h,the mole ratio of MHPZ and dimethyl phosphite is 1.0∶1.1,the mass fraction of catalyst strong acid cation exchange resin in the reactant is 0.3%. The flame retardancy and the thermal degradation behavior of HPAPE flame retardant polyurethane(PUR) were studied by the limiting oxygen index(LOI),UL94 vertical flame test and the thermogravimetric analysis. The results show that HPAPE mass fraction of 24% are added into PUR to get about 26.2%of the LOI and UL94 V-0 rating,which shows good flame retardancy. Comparing with PUR,the mass residual rate of HPAPE flame retardant PUR at 700℃increase by 4.91%and the activation energy for the decomposition increase by 32.40 kJ/(mol · K) by calculating of proteus analysis software,which shows that the flame retardants can catalyze decomposition and carbonization of PUR.
