中南林业科技大学学报
中南林業科技大學學報
중남임업과기대학학보
JOURNAL OF CENTRAL SOUTH UNIVERSITY OF FORESTRY & TECHNOLOGY
2015年
5期
133-140
,共8页
王洁%胡云楚%徐晨浩%田梁材%汤静芳%卿彦%吴义强
王潔%鬍雲楚%徐晨浩%田樑材%湯靜芳%卿彥%吳義彊
왕길%호운초%서신호%전량재%탕정방%경언%오의강
脱脂棉%纤维素%尺寸可控%形态可控
脫脂棉%纖維素%呎吋可控%形態可控
탈지면%섬유소%척촌가공%형태가공
absorbent cotton%cellulose%size-controlled%shape-controlled
以脱脂棉为原材料,通过机械剪切和酸水解2种方法制备了不同尺寸、形态的纤维素,考察了各因素对纤维素尺寸、形态的影响规律。利用傅立叶转换红外光谱仪(FT-IR)、透射电子显微镜(TEM)观察法、扫描电子显微镜(SEM)观察法和激光粒度分析法对所制得的不同尺寸、形态的纤维素进行分析表征。FT-IR 分析表明,采用以上2种方法制备的产物是纤维素。扫描电镜照片和激光粒度数据表明,机械剪切制备的纤维素粒径均集中在10~100μm区间,占产物总量的68.58%~78.94%,其长度集中在40~55μm,直径约为5μm,长径比为8︰1~10︰1,并含有极少量长度数十微米、直径200 nm左右高长径比的纳米级纤丝状纤维素。透射电镜照片和激光粒度数据表明,控制酸水解的条件制备出呈短棒状的纤维素,其尺寸从微米级至纳米级不等,长径比约为7.5︰1~20︰1。
以脫脂棉為原材料,通過機械剪切和痠水解2種方法製備瞭不同呎吋、形態的纖維素,攷察瞭各因素對纖維素呎吋、形態的影響規律。利用傅立葉轉換紅外光譜儀(FT-IR)、透射電子顯微鏡(TEM)觀察法、掃描電子顯微鏡(SEM)觀察法和激光粒度分析法對所製得的不同呎吋、形態的纖維素進行分析錶徵。FT-IR 分析錶明,採用以上2種方法製備的產物是纖維素。掃描電鏡照片和激光粒度數據錶明,機械剪切製備的纖維素粒徑均集中在10~100μm區間,佔產物總量的68.58%~78.94%,其長度集中在40~55μm,直徑約為5μm,長徑比為8︰1~10︰1,併含有極少量長度數十微米、直徑200 nm左右高長徑比的納米級纖絲狀纖維素。透射電鏡照片和激光粒度數據錶明,控製痠水解的條件製備齣呈短棒狀的纖維素,其呎吋從微米級至納米級不等,長徑比約為7.5︰1~20︰1。
이탈지면위원재료,통과궤계전절화산수해2충방법제비료불동척촌、형태적섬유소,고찰료각인소대섬유소척촌、형태적영향규률。이용부립협전환홍외광보의(FT-IR)、투사전자현미경(TEM)관찰법、소묘전자현미경(SEM)관찰법화격광립도분석법대소제득적불동척촌、형태적섬유소진행분석표정。FT-IR 분석표명,채용이상2충방법제비적산물시섬유소。소묘전경조편화격광립도수거표명,궤계전절제비적섬유소립경균집중재10~100μm구간,점산물총량적68.58%~78.94%,기장도집중재40~55μm,직경약위5μm,장경비위8︰1~10︰1,병함유겁소량장도수십미미、직경200 nm좌우고장경비적납미급섬사상섬유소。투사전경조편화격광립도수거표명,공제산수해적조건제비출정단봉상적섬유소,기척촌종미미급지납미급불등,장경비약위7.5︰1~20︰1。
With absorbent cotton as raw material, different size and shape of cellulose were prepared by mechanical shear and acid hydrolysis, and the influences of various factors on cellulose size or shape were investigated The different size and shape of cellulose were conifrmed and compared by fourier transform infrared spectroscopy (FT-IR), transmission electron microscopy (TEM), scanning electron microscopy analysis (SEM) and laser particle size analyzer. The results show that the products prepared by the two methods above are cellulose. The particle diameter of cellulose prepared by mechanical shearing was concentrated in the range of 10~100μm, the percentage of the total content of the products was 68.58~78.94%, and its length was concentrated in 40~55μm, the diameter was about 5μm, the aspect ratio was about 8︰1~10︰1, and the products contained a very small amount of nano-cellulose with high aspect ratio, which the length were several tens of micrometers, and the diameter was about 200 nm. Short rod-like cellulose can be obtained by controlling the conditions of acid hydrolysis, and the sizes of the cellulose ranged from micrometer to nanometer, the aspect ratio was about 7.5︰1 to 20︰1.
