硅氧烷结构对聚醚改性硅氧烷磷酸酯性能的影响
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摘要
通过硅氢加成法,以七甲基氢三硅氧烷、聚醚F-6和五氧化二磷等为原料,合成聚醚改性三硅氧烷磷酸酯;以低含氢硅油、聚醚F-6和五氧化二磷等为原料,合成聚醚改性聚硅氧烷磷酸酯。对这两种硅氧烷结构不同的磷酸酯进行了红外光谱分析,同时进行了表面张力、接触角、粘度的测试。结果表明,两种产物均具有较好的降低表面张力的能力,较好的降粘性。聚醚改性三硅氧烷磷酸酯降低表面张力的能力强于聚醚改性聚硅氧烷磷酸酯。聚醚改性三硅氧烷磷酸酯可使大庆原油粘度降低73. 77%,降粘效果好于聚醚改性聚硅氧烷磷酸酯。
With seven methyl trisiloxane,F-6 and phosphorus pentoxide as raw materials by hydrosilylation,phosphate polyether modified trisiloxane was synthesized; With low hydrogen silicone oil,F-6 and phosphorus pentoxide as raw materials by hydrosilylation,phosphate polyether modified polysiloxane was synthesized. The infrared spectra of the two kinds of siloxane products with different structures were analyzed. The viscosity,surface tension and contact angle were also tested. The results show that the two products have better ability to reduce surface tension,better viscosity reducing effect. The ability of phosphate polyether modified trisiloxane to reduce surface tension is stronger than that of phosphate polyether modified polysiloxane. Phosphate polyether modified trisiloxane reduces the viscosity of crude oil by 73. 77%,the effect of reducing viscosity is better than that of phosphate polyether modified polysiloxane.
With seven methyl trisiloxane,F-6 and phosphorus pentoxide as raw materials by hydrosilylation,phosphate polyether modified trisiloxane was synthesized; With low hydrogen silicone oil,F-6 and phosphorus pentoxide as raw materials by hydrosilylation,phosphate polyether modified polysiloxane was synthesized. The infrared spectra of the two kinds of siloxane products with different structures were analyzed. The viscosity,surface tension and contact angle were also tested. The results show that the two products have better ability to reduce surface tension,better viscosity reducing effect. The ability of phosphate polyether modified trisiloxane to reduce surface tension is stronger than that of phosphate polyether modified polysiloxane. Phosphate polyether modified trisiloxane reduces the viscosity of crude oil by 73. 77%,the effect of reducing viscosity is better than that of phosphate polyether modified polysiloxane.
引文
[1]王固霞,郭生伟,王学川.一种聚醚改性硅氧烷磷酸酯的应用性能[J].皮革科学与工程,2012,22(1):45-49.
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[6]刘敏,陈鹏.聚醚改性聚硅氧烷硅氢加成转化率的影响因素研究[J].上海涂料,2013,51(8):5-7.
[7]李祥洪.三硅氧烷表面活性剂[J].有机硅材料,2004,18(1):32-34.
[8]汪瑜华,李瑶,佘慧玲,等.三硅氧烷和四硅氧烷乙氧基化物的合成和性能[J].有机硅材料,2005,19(1):5-7.
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[10] Gentle T E,Snow S A. Adsorption of small silicone polyether surfactants at the air/water interface[J]. Langmuir,1995,11(8):2905-2910.
[11] Shen Y Y,Couzis A,Koplik J,et al. Molecular dynamics study of the influence of surfactant structure on surfactantfacilitated spreading of droplets on solid surfaces[J].Langmuir,2005,21(26):12160-12170.
[2]王桂莲,刘燕军,葛启.聚醚/磷酸酯改性聚硅氧烷的合成[J].天津工业大学学报,2004,23(1):52-54.
[3]王学川,王固霞.聚醚改性硅氧烷磷酸酯的合成及应用[J].日用化学工业,2006,36(3):166-170.
[4] Randal M H. Silicone surfactants-new developments[J].Current Opinion in Colloid&Interface Science,2002,7(5/6):255-261.
[5]韩闪闪,徐进云,孙玉.聚醚改性三硅氧烷的合成工艺研究[J].天津工业大学学报,2012,31(1):61-64.
[6]刘敏,陈鹏.聚醚改性聚硅氧烷硅氢加成转化率的影响因素研究[J].上海涂料,2013,51(8):5-7.
[7]李祥洪.三硅氧烷表面活性剂[J].有机硅材料,2004,18(1):32-34.
[8]汪瑜华,李瑶,佘慧玲,等.三硅氧烷和四硅氧烷乙氧基化物的合成和性能[J].有机硅材料,2005,19(1):5-7.
[9]关风,钟宏,张贤顺.三硅氧烷类表面活性剂的合成及应用[J].精细化工中间体,2008,38(5):1-4.
[10] Gentle T E,Snow S A. Adsorption of small silicone polyether surfactants at the air/water interface[J]. Langmuir,1995,11(8):2905-2910.
[11] Shen Y Y,Couzis A,Koplik J,et al. Molecular dynamics study of the influence of surfactant structure on surfactantfacilitated spreading of droplets on solid surfaces[J].Langmuir,2005,21(26):12160-12170.
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