中山大学学报(自然科学版)
中山大學學報(自然科學版)
중산대학학보(자연과학판)
ACTA SCIENTIARUM NATURALIUM UNIVERSITATIS SUNYATSENI
2007年
z1期
113-114
,共2页
丙纶纤维%氮等离子处理%丙烯酸接枝%染色%上染率
丙綸纖維%氮等離子處理%丙烯痠接枝%染色%上染率
병륜섬유%담등리자처리%병희산접지%염색%상염솔
polypropylene fibre%plasma pretreatment%acrylic acid grafting%dyeing%dyeing ratio
丙纶纤维具有显著的物理化学优点,但丙纶纤维染色困难制约了其应用与发展.本研究用氮气等离子体对丙纶纤维进行表面处理,然后用丙烯酸接枝丙纶纤维.用傅立叶变换红外光谱和扫描电镜分析改性前后样品.结果表明:等离子体表面处理接枝后的丙纶纤维能染上鲜艳的阳离子艳兰.
丙綸纖維具有顯著的物理化學優點,但丙綸纖維染色睏難製約瞭其應用與髮展.本研究用氮氣等離子體對丙綸纖維進行錶麵處理,然後用丙烯痠接枝丙綸纖維.用傅立葉變換紅外光譜和掃描電鏡分析改性前後樣品.結果錶明:等離子體錶麵處理接枝後的丙綸纖維能染上鮮豔的暘離子豔蘭.
병륜섬유구유현저적물이화학우점,단병륜섬유염색곤난제약료기응용여발전.본연구용담기등리자체대병륜섬유진행표면처리,연후용병희산접지병륜섬유.용부립협변환홍외광보화소묘전경분석개성전후양품.결과표명:등리자체표면처리접지후적병륜섬유능염상선염적양리자염란.
Polypropylene (PP) fiber has outstanding physical and chemical advantages, but it is very difficult to be dyed so PP fiber's applications are greatly restricted. We have here studied the methods to ameliorate the dyeing property by nitrogen (N2) plasma pretreatment and acrylic acid grafting. Its surface chemical composition was changed after plasma treatments and was characterized by Scanning Electronic Mirror -SEM, Fourier Transformed Infrared Spectra -FTIR accordingly. The results show that the fiber's surface after treatment could been dyed by basic blue 54 dyestuffs.