印染助剂
印染助劑
인염조제
Textile Auxiliaries
2015年
10期
13-17
,共5页
梳状氟硅共聚物%原位缩合%超疏水%棉织物%硅氢化加成
梳狀氟硅共聚物%原位縮閤%超疏水%棉織物%硅氫化加成
소상불규공취물%원위축합%초소수%면직물%규경화가성
comb- like fluorosilicon copolymer%in situ condensation%superhydrophobic%cotton fabric%hydrosilylation
用硅氢化加成和开环反应先制得梳状结构的全氟酯基/三氟丙基/硅乙氧基改性聚硅氧烷(FPFAS)中间体.然后利用硅乙氧基与硅溶胶间的原位缩合反应,制得了纳米SiO2梳状氟硅共聚物(FPFAS-SiO2).并用一步浸渍法处理棉织物构筑了兼具柔软、良好透气性的超疏水织物.用IR、XPS、FESEM、接触角测量仪等对产物结构、膜形貌及应用性能进行研究.结果表明,产物具有预期结构.纳米SiO2粒径影响织物的超疏水性能,当FPFAS-SiO2溶液用量为0.5%,整理后织物表面的水静态接触角和滚动角分别为163.5°和7°,具有良好的透气性和柔软性.FESEM可明显观察到纤维表面存在一层微/纳多尺度复合膜.
用硅氫化加成和開環反應先製得梳狀結構的全氟酯基/三氟丙基/硅乙氧基改性聚硅氧烷(FPFAS)中間體.然後利用硅乙氧基與硅溶膠間的原位縮閤反應,製得瞭納米SiO2梳狀氟硅共聚物(FPFAS-SiO2).併用一步浸漬法處理棉織物構築瞭兼具柔軟、良好透氣性的超疏水織物.用IR、XPS、FESEM、接觸角測量儀等對產物結構、膜形貌及應用性能進行研究.結果錶明,產物具有預期結構.納米SiO2粒徑影響織物的超疏水性能,噹FPFAS-SiO2溶液用量為0.5%,整理後織物錶麵的水靜態接觸角和滾動角分彆為163.5°和7°,具有良好的透氣性和柔軟性.FESEM可明顯觀察到纖維錶麵存在一層微/納多呎度複閤膜.
용규경화가성화개배반응선제득소상결구적전불지기/삼불병기/규을양기개성취규양완(FPFAS)중간체.연후이용규을양기여규용효간적원위축합반응,제득료납미SiO2소상불규공취물(FPFAS-SiO2).병용일보침지법처리면직물구축료겸구유연、량호투기성적초소수직물.용IR、XPS、FESEM、접촉각측량의등대산물결구、막형모급응용성능진행연구.결과표명,산물구유예기결구.납미SiO2립경영향직물적초소수성능,당FPFAS-SiO2용액용량위0.5%,정리후직물표면적수정태접촉각화곤동각분별위163.5°화7°,구유량호적투기성화유연성.FESEM가명현관찰도섬유표면존재일층미/납다척도복합막.
Comb- like perfluoroalkyl ester/trifluoropropyl/ethoxy silane containing polysiloxanes (FPFAS) in-termediate was prepared through hydrosilylation and ring- opening reaction, which was reacted with silica sols via in situ condensation to produce comb- like fluorosilicon copolymer/nano silica hybrid (FPFAS- SiO2). Super-hydrophobic cotton fabric with good soft handle and air permeability was fabricated via simple dip- coating method. IR, XPS, FESEM and contact angle tester were utilized to characterize its structure, morphology and application properties. The results indicated that the product had the due structure. Superhydrophobicity of the treated fabric was influenced by the particle diameter of nano silica. While mass concentration of the FP-FAS- SiO2 in ethyl acetate solution was 0.5%, water contact angle and rol- off angle on the treated fabric sur-face were 163.5° and 7°, respectively. The treated cotton fabric possessed favorable air permeability and soft-ness. A micro/nano multiscale composite film on the fiber surface could be clearly observed by FESEM.