厦门大学学报(自然科学版)
廈門大學學報(自然科學版)
하문대학학보(자연과학판)
JOURNAL OF XIAMEN UNIVERSITY (NATURAL SCIENCE)
2009年
4期
564-569
,共6页
曾海涛%董炎明%周花%曾志群%沈新元
曾海濤%董炎明%週花%曾誌群%瀋新元
증해도%동염명%주화%증지군%침신원
凝胶纺丝%超高分子量聚丙烯腈%碳纳米管%复合纤维%壳聚糖衍生物
凝膠紡絲%超高分子量聚丙烯腈%碳納米管%複閤纖維%殼聚糖衍生物
응효방사%초고분자량취병희정%탄납미관%복합섬유%각취당연생물
gel-spinning%ultimate high molecular weight polyacrylonitrile%carbon nano-tubes%composite fibers%chitosan derivatives
多壁碳纳米管(MWNTs)通过壳聚糖衍生物处理后与超高分子量聚丙烯腈进行复合,将得到的复合材料通过凝胶纺丝法制备出不同复合比例的MWNTs/聚丙烯腈纤维.将不同纺丝方法以及不同比例MWNTs对拉伸强度、模量、取向度、结晶结构的影响进行比较研究,同时通过电镜观察MWNTs的分散状况.结果表明:相比于湿法纺丝,通过凝胶纺丝法制备的复合纤维,MWNTs取向更好,分散更为均匀,纤维拉伸强度、模量都得到显著提高.对比未加MWNTs的对照样,在这个体系中加入质量分数为0.5%的MWNTs复合时,拉伸强度提高37%,弹性模量提高11.68%,并且声速取向度维持在相当高的水平(92.5%).
多壁碳納米管(MWNTs)通過殼聚糖衍生物處理後與超高分子量聚丙烯腈進行複閤,將得到的複閤材料通過凝膠紡絲法製備齣不同複閤比例的MWNTs/聚丙烯腈纖維.將不同紡絲方法以及不同比例MWNTs對拉伸彊度、模量、取嚮度、結晶結構的影響進行比較研究,同時通過電鏡觀察MWNTs的分散狀況.結果錶明:相比于濕法紡絲,通過凝膠紡絲法製備的複閤纖維,MWNTs取嚮更好,分散更為均勻,纖維拉伸彊度、模量都得到顯著提高.對比未加MWNTs的對照樣,在這箇體繫中加入質量分數為0.5%的MWNTs複閤時,拉伸彊度提高37%,彈性模量提高11.68%,併且聲速取嚮度維持在相噹高的水平(92.5%).
다벽탄납미관(MWNTs)통과각취당연생물처리후여초고분자량취병희정진행복합,장득도적복합재료통과응효방사법제비출불동복합비례적MWNTs/취병희정섬유.장불동방사방법이급불동비례MWNTs대랍신강도、모량、취향도、결정결구적영향진행비교연구,동시통과전경관찰MWNTs적분산상황.결과표명:상비우습법방사,통과응효방사법제비적복합섬유,MWNTs취향경호,분산경위균균,섬유랍신강도、모량도득도현저제고.대비미가MWNTs적대조양,재저개체계중가입질량분수위0.5%적MWNTs복합시,랍신강도제고37%,탄성모량제고11.68%,병차성속취향도유지재상당고적수평(92.5%).
After being treated by chitosan derivatives,the multi-walled carbon nano-tubes (MWNTs) were composited with ultimate high molecular weight polyacrylonitrile (UHMW-PAN).And then spin a series concentration of MWNTs proportion of MWNTs/PAN composite fibres via gel-spinning.Study on the effect of different methods of spinning,and the different proportion of multi-walled carbon nano-tubes on the tensile strength,modulus,orientation,crystallization structure.And the dispersion of MWNTs in PAN was observed by scan electron microscope.The result shows that:compared to wet-spinning fibers,the gel-spinning fibers have better orientation,dispersion,tensile strength and modulus.And the composited with carbon nano-tubes would engender the impact of sonic orientation of the fibers.While the mass fraction of MWNTs is 0.5%,compare to the PAN fibers,the tensile strength increase 37%,Young's modulus increase 11.68%,and the degree of sonic orientation is highly maintained (92.5%).
