化工新型材料
化工新型材料
화공신형재료
NEW CHEMICAL MATERIALS
2010年
1期
101-103,113
,共4页
安秋凤%袁俊敏%付永山%贾顺田
安鞦鳳%袁俊敏%付永山%賈順田
안추봉%원준민%부영산%가순전
氟代聚丙烯酸酯%乳液聚合%防水剂%防油剂%织物
氟代聚丙烯痠酯%乳液聚閤%防水劑%防油劑%織物
불대취병희산지%유액취합%방수제%방유제%직물
fluorinated polyacrylate%emulsion polymerization%water-repellent%oil-repellent%fabric
用红外光谱(IR)、核磁共振氢谱(~1H-NMR)对氟代聚丙烯酸酯乳液主组分FBDH的结构进行了表征,然后用透射电镜(TEM)、纳米粒度仪和Zeta电位分析仪对乳液的粒径等物化指标进行了测定,并以棉织物作为应用对象,考察FBDH的应用性能.结果表明,FBDH乳液是一种平均粒径为126.2nm、Zeta电位为+21.16mV的阳离子乳液,用于棉织物的后整理,FBDH能明显改善织物的表面性能和手感.当FBDH乳液的用量为2g/100Gh_2O时,经其处理后的棉织物防水性可达到80分、防油等级达到6级以上.FBDH整理对棉织物的白度影响不大,但大剂量使用则会导致织物手感发硬、弯曲刚度有所增加.
用紅外光譜(IR)、覈磁共振氫譜(~1H-NMR)對氟代聚丙烯痠酯乳液主組分FBDH的結構進行瞭錶徵,然後用透射電鏡(TEM)、納米粒度儀和Zeta電位分析儀對乳液的粒徑等物化指標進行瞭測定,併以棉織物作為應用對象,攷察FBDH的應用性能.結果錶明,FBDH乳液是一種平均粒徑為126.2nm、Zeta電位為+21.16mV的暘離子乳液,用于棉織物的後整理,FBDH能明顯改善織物的錶麵性能和手感.噹FBDH乳液的用量為2g/100Gh_2O時,經其處理後的棉織物防水性可達到80分、防油等級達到6級以上.FBDH整理對棉織物的白度影響不大,但大劑量使用則會導緻織物手感髮硬、彎麯剛度有所增加.
용홍외광보(IR)、핵자공진경보(~1H-NMR)대불대취병희산지유액주조분FBDH적결구진행료표정,연후용투사전경(TEM)、납미립도의화Zeta전위분석의대유액적립경등물화지표진행료측정,병이면직물작위응용대상,고찰FBDH적응용성능.결과표명,FBDH유액시일충평균립경위126.2nm、Zeta전위위+21.16mV적양리자유액,용우면직물적후정리,FBDH능명현개선직물적표면성능화수감.당FBDH유액적용량위2g/100Gh_2O시,경기처리후적면직물방수성가체도80분、방유등급체도6급이상.FBDH정리대면직물적백도영향불대,단대제량사용칙회도치직물수감발경、만곡강도유소증가.
A cationic fluorinated polyacrylate (FBDH) emulsion was prepared by copolymerization of dodecafluoro-heptyl methacrylate (R_fAA), butyl acrylate (BA), dimethylaminoethyl methacrylate(DM) and 2-hydroxypropyl acrylate (HPAA) in aqueous medium at the presence of a free-radical initiator and cationic surfactants. Chemical structure of FB-DH was characterized by infrared spectrum (IR) and ~1H nuclear resonance spectrum (~1H-NMR), then the particle sizes and the latex distribution of the emulsion were investigated by TEM, ζ voltage analysis and other instruments. The per-formance of cotton fabrics treated by FBDH emulsion was also studied. As expected, the FBDH emulsion was cationic and of an average particle size about 126.2nm, and possessed an average latex ζ voltage of +21.16mV. When used in the fab-ric treatment,FBDH could modify the surface properties and the handle of the treated fabrics strongly. The water-repel-lency and oil-repellency of the treated fabrics reached to 80 and 6 degree as the dosage of FBDH emulsion was 2g in 100g H_2O. FBDH had little influence on the whiteness of treated cotton fabrics, but its dosage could affect the rigidity and han-dle of treated fabrics in application. Generally, the rigidity and the stiffness of treated fabrics would more or less increase as the dosage of FBDH emulsion increased.