将 N-羟甲基-3-(二甲氧基膦酰基)丙酰胺、氢氧化钠、碘丁基硅油(IBu-PDMS)为原料,合成了反应型的具有拒水阻燃双重功能的碘丁基-co-N-甲氧基-3-(二甲氧基膦酰基)丙酰胺聚硅氧烷〔(I B-c o-N-MD-PA)PDMS〕,其与棉织物能以共价键结合,利用 FT-IR、1 H NMR表征了其结构。利用 TGA、氧指数仪分析了拒水阻燃多功能棉织物的热性能及其阻燃性与阻燃机理,通过测定其接触角表征其拒水性。结果表明,制备的(IB-co-N-MDPA)PDMS 与棉纤维反应,使棉织物有拒水性能,它实际上控制了棉纤维的热裂解,使纤维发生脱水炭化,促进了炭化层的形成,最后的残炭量由10.5%提高至42.4%,棉织物的极限氧指数从18提高到28,拒水等级为90,接触角从88.37°提高到119.73°。
Reactive iodine butyl-co-N-methoxy-3-(dimethoxy dibenzyloxyphosphoiyl)propionamide polysiloxane [(IB-co-N-MDPA)PDMS)]with double functions of water repellency and flame retardancy was synthesized using N-methylol-3-(dimethoxy dibenzyloxyphosphoiyl)acrylic amide,sodium hydroxide and poly (4-iodo-n-butoxy)methylsiloxane as raw materials.The structure of (IB-co-N-MDPA)PDMS was characterized by the FT-IR and 1 H NMR.It could be combined with cotton by covalent bonds.The morphology,thermal proper-ties,flame retardency and flame retardent mechanism of the multifunctional cotton fabric were analyzed using TGA and limit oxygen index (LOI)instruments.The contact angle and water repellency of it were tested.The results showed that(IB-co-N-MDPA)PDMS reacted with cotton fiber to form crosslinked membrane on the sur-face,which had water repellency function.And also the coexistence of silicon,nitrogen and phosphorus could produce synergistic flame-retardant effect.On one hand,the melting siloxane polymer formed a covering layer on the surface of fiber when the retardants were heated.The covering layer became a protective screen between the condensed phase and flame.On the other hand,the addition of (IB-co-N-MDPA)PDMS controlled the py-rolysis of cotton fiber to make the fiber dehydrated and carbonized,which promoted the formation of carboniza-tion layer.The final amount of residual carbon increased from 10.5% to 42.4%.The LOI of cotton fabric in-creased from 18 to 28 and the contact angle increased from 88.37°to 119.73°.The water repellent level was 90.
参考文献
| [1] | 张顺,吴宁晶,李美江.有机硅阻燃剂的研究进展[J].高分子通报,2010(12):72-77. |
| [2] | 吴金坤 .硅酮系阻燃剂及其阻燃技术[J].化工新型材料,2000,9:12-15. |
| [3] | Li Q;Jiang PK;Su ZP;Wei P;Wang GL;Tang XZ .Synergistic effect of phosphorus, nitrogen, and silicon on flame-retardant properties and char yield in polypropylene[J].Journal of Applied Polymer Science,2005(3):854-860. |
| [4] | 贾修伟,刘治国.硅系阻燃剂研究进展[J].化工进展,2003(08):818-822. |
| [5] | 郑强;高传花;林薇薇 等.水分含磷、硅、氮嵌段聚合物阻燃剂的制备方法及其用途[P].中国专利:CN101333443A,2008-12-31. |
| [6] | Yang C Q;Wu W .Combination of a hydroxyl-functional organophosphorus oligomer and a multifunctional carbox-ylic acid as a flame retardant finishing system for cotton:part I.The chemical reactions[J].Fire Material,2003,27(04):223-230. |
| [7] | 赵海梅 .纯棉织物的阻燃整理[D].长春工业大学,2007. |
| [8] | Lecoeur E;Vroman I;Bourbigot S;Delobel R .Optimization of monoguanidine dihydrogen phosphate and amino propylethoxysilane based flame retardant formulations for cotton[J].Polymer Degradation and Stability,2006(8):1909-1914. |
| [9] | 朱平.功能纤维及功能纺织品[M].北京:中国纺织出版社,2006:86. |
| [10] | 沈斌,陈洪龄.Williamson反应合成2-月桂氧基-N,N-二甲基乙胺[J].化学研究与应用,2010(07):853-857. |
| [11] | 芮培欣,周鹏,廖维林,许招会.Williamson反应合成二乙二醇二甲醚及其合成条件优化[J].江西化工,2009(01):54-56. |
| [12] | 方东,焦昌梅,张华彬,刘祖亮.Williamson反应合成取代二苯醚的清洁工艺[J].含能材料,2010(01):15-18. |
| [13] | 周盾白,贾德民,黄险波.有机硅/聚合物阻燃改性应用与研究进展[J].塑料科技,2006(03):53-56,27. |
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