PDF全文下载:2014040350
李莉, 李雪, 徐路, 苏倩, 唐林生*
(青岛科技大学 化工学院,山东 青岛 266042)
摘要: 对氨基环三磷腈的缩聚及缩聚物的性能进行了研究。结果表明,氨基环三磷腈的取代度对其缩聚有显著的影响。随取代度的增大,聚合产率先增大后减小,游离氯、结合氯含量均逐渐减少,而溶解度、吸湿性逐渐增大。氨基环三磷腈的较佳缩聚条件是:氨基环三磷腈的取代度为926%,聚合温度为178~182 ℃,聚合时间为05 h。在此条件下,产品的产率为9432%,总氯含量为205%,磷含量为5089%,氮含量为4338%,氢含量为368%,溶解度为105 g(100 mL水中),在相对湿度为50%~60%时,吸湿率为59%。聚氨基环三磷腈主要由氨基环三磷腈的二聚体、三聚体、四聚体和五聚体组成,其中以三聚体为主。聚氨基环三磷腈阻燃元素磷、氮含量高,热稳定性较好,近于中性,适合作为阻燃剂。
关键词: 氨基环三磷腈; 聚氨基环三磷腈; 缩聚
中图分类号: TQ 320.4文献标志码: A
收稿日期: 20130530
基金项目: 国家自然科学基金项目(21276131).
作者简介: 李莉(1989—),女,硕士研究生.*通信联系人.
Preparation and Property of Polyaminocyclotriphosphazene
LI Li, LI Xue, XU Lu, SU Qian, TANG Linsheng
(CollegeofChemical Engineering,QingdaoUniversityof Science and Technology,Qingdao266042,China)
Abstract: In this paper, the polycondensation of aminocyclotriphosphazene and the property of the condensation polymer were studied. The results indicated that The substitution degree of aminocyclotriphosphazene had significant impact on its polycondensation. With the increasing of substitution degree, the polymerization yield increased first and then decreased, the content of free chlorine and combined chlorine gradually decreased, contrary to the solubility and hygroscopicity. The optimum polycondensation conditions were as follows: The substitution degree being 926%, polymerization time being 05 h, the reaction temperature being 178—182 ℃. Under the above conditions, the yield of polyaminocyclotriphosphazene was 9432%, and the content of chlorine, phosphorous, nitrogen and hydrogen in the product were respectively 205%, 5289%, 4338% and 368% as well as the solubility of the product was 105 g(100 mL water) and the hygroscopicity was 59% under relative humidity of 50%—60%. The polyaminocyclotriphosphazene obtained was mainly composed of dimer, trimer, tetramer and pentamer of aminocyclotriphosphazene, especially the trimer. Due to the high content of phosphorous and nitrogen, better thermal stability and nearly neutral, the polyaminocyclotriphosphazene was perfectly used as a flame retardant.
Key words:aminocyclotriphosphazene; polyaminocyclotriphosphazene; polycondensation
