原液着色Lyocell纤维制备过程中炭黑与溶剂的相互作用

着色剂的加入是否会影响Lyocell绿色生产工艺和溶剂的回收利用是原液着色Lyocell纤维实际生产面临的问题。选用炭黑作为黑色颜料,研究了炭黑在NMMO溶液中的分散性,分析了不同炭黑添加量的溶液特性、纤维的可纺性和纺丝条件,用X射线衍射法分析了纤维的基本结构和性能的关系。着重采用红外光谱、紫外光谱分析了炭黑对溶剂NMMO的影响,用紫外光谱研究了炭黑在纺丝成形和纤维使用过程中的迁移量。结果表明:整个纺丝成形过程中炭黑没有发生迁移,炭黑的添加不影响溶剂的回收利用;制得的原液着色Lyocell纤维色牢度高;随着炭黑添加量的增大,纤维结晶度会有所降低,纤维强度略有下降,但依然满足服用要求。     

纳米炭黑填充Lyocell基碳纤维的结构与性能

采用纳米炭黑填充Lyocell纤维制备碳纤维,并对纤维的结构与性能进行了分析。结果表明:经过不同温度预氧化处理后和最终得到的碳纤维的X射线衍射图谱中都保留着纳米炭黑的特征衍射峰;填充纳米炭黑的Lyocell基碳纤维的力学性能显著提高,填充质量分数10%纳米炭黑的Lyocell基碳纤维强度和模量分别比未填充的提高45%和56%;纳米炭黑填充的Lyocell基碳纤维结构致密、表面光洁,没有明显的裂纹和缺陷。     

纳米炭黑添加剂对纤维素/NMMO纺丝原液流变行为及其纤维结构性能的影响

研究了纳米炭黑添加剂对纤维素/NMMO·H2O溶液流变行为及Lyocell纤维结构与性能的影响。研究结果表明:添加了纳米炭黑的纤维素/NMMO·H2O溶液属典型的切力变稀型流体。纳米炭黑的加入使溶液的流动活化能有所增大,并且少量纳米炭黑的加入使体系的黏度有明显的降低,但随着炭黑含量的进一步增加,溶液黏度又逐渐增大。添加了适量纳米炭黑的Lyocell纤维的结构致密,其强度和模量虽略有降低,但结晶结构和热稳定性不变,由此制得的碳纤维不仅得率可有效提高,且强度和模量大大改善。     

改性剂PVA对Lyocen纤维结构和性能的影响

将聚乙烯醇（PVA）加入到纤维素／NMMO-H20溶液中进行纺丝,制备了不同PVA含量的Lyocell纤维,并对纤维的结构和性能进行了表征。结果表明,添加适量的PVA可以降低纺丝原液的黏度,提高纺丝液的可纺性,明显提高Lyocell纤维的强度和模量;通过x射线衍射测试,发现添加PVA之后Lyocell纤维仍然具有纤维素II晶型的结构;此外,PVA的加入还可以改善Lyocell纤维的抗原纤化性能,提高Lyocell纤维的热稳定性。     

Lyocell-炭黑复合纤维的结构与性能

将纳米炭黑、N-甲基吗啉-N-氧化物(NMMO)溶液及纤维素共混得到纺丝液,通过干湿法制备了Lyocell-炭黑复合纤维。采用X射线衍射仪、扫描电镜、强度仪等分析了所得纤维的结构和性能。X射线衍射图谱显示复合纤维仍然具有纤维素II晶型的结构,同时还保留了炭黑的特征衍射峰。扫描电镜结果显示复合纤维中炭黑在纤维素基体中有一些团聚。对纤维的力学性能及电导率分析进一步表明:添加炭黑使得复合纤维的初始模量和断裂强度下降,但是可以在一定程度上提高复合纤维的电导率。     

炭黑添加剂对PAN原丝性能的影响

用炭黑改性聚丙烯腈原丝制得了中孔率大大提高的活性炭纤维。考察了炭黑对聚丙烯腈——二甲基亚砜纺丝溶液粘度、可纺位及纺得纤维微观结构、元素组成、力学性能和热性能的影响。由于炭黑具有纳米级的位径和粗糙的表面，因此可均匀分散于聚丙烯腈溶液及纤维中并与聚丙烯腈大分子结合，使其溶液粘度，粘流活化能增大。结晶度减小，但对其热性能影响不大。     

静电纺丝法制备聚碳酸酯基聚氨酯纳米纤维的研究

以N,N-二甲基甲酰胺(DMF)和四氢呋喃(THF)为混合溶剂配制聚碳酸酯基热塑性聚氨酯(PU)纺丝溶液,通过静电纺丝法制备PU纳米纤维。重点研究了纺丝溶液浓度、混合溶剂中DMF和THF的体积比、纺丝电压和纺丝溶液流速对PU纳米纤维形态、直径及其分散性的影响。结果发现,纺丝液浓度为12%,混合溶剂中DMF与THF体积比为1∶1,纺丝电压为10 kV,纺丝溶液流速为0. 8 m L/h时,通过静电纺丝法制得的PU纳米纤维粗细均匀,表面光滑,纤维之间无粘连现象,形成的纳米纤维膜空隙率高。     

PAN/MWNTs纳米纤维薄膜的制备和性能(英文)

采用浓硝酸和浓硫酸混合溶液将多壁碳纳米管(MWNTs)进行功能化处理,与聚丙烯腈(PAN)共混,通过静电纺丝制备了PAN/MWNTs纳米纤维薄膜。分析了MWNTs的结构和分散性及PAN/MWNTs纳米纤维的性能。结果表明,经过混酸处理后,MWNTs表面产生了羧基官能团,可以长时间稳定均匀分散在N,N′-二甲基乙酰胺(DMF)溶液中。混酸处理后的MWNTs在PAN基体中均匀分散,减少了静电纺丝过程中珠滴地形成。添加MWNTs后,PAN纳米纤维的强度提高,含MWNTs质量分数5%的PAN纳米纤维的拉伸强度提高了35.48%。     

不同种类炭黑在全钢载重子午线轮胎胎面胶中的应用研究

研究4种炭黑（V9HX1,N110,N115和N134）在全钢载重子午线轮胎胎面胶中的应用。结果表明：炭黑V9HX1填充胶料生热低,耐磨、补强、分散性好,但抗撕裂性能较差;炭黑N134填充胶料生热中等、耐磨性能好,具有一定的抗撕裂性能、但分散性和加工性能较差;炭黑N110填充胶料生热中等,抗撕裂性能优异,分散性好,但耐磨性能略差;炭黑N115填充胶料具有优良的抗撕裂性能,分散性好,但生热高,耐磨性能略差;4种炭黑对胎面胶性能的影响有所差异,建议根据产品使用环境要求选择合适的高结构度、大比面积炭黑品种。     

水性聚氨酯/聚乙烯醇复合纳米纤维的制备及结构研究

将水性聚氨酯(WPUR)与聚乙烯醇(PVAL)按照不同质量比制备质量分数为8%的纺丝溶液,通过静电纺丝制备WPUR/PVAL复合纳米纤维。运用扫描电子显微镜、傅立叶变换红外光谱仪和X射线衍射仪对WPUR与PVAL质量比不同的纺丝溶液制备的复合纳米纤维的微观形貌和结构进行分析。实验结果表明,PVAL的含量对复合纳米纤维的形成和形貌起着决定性的作用,随着溶液中PVAL含量的增加,纺丝过程中纺丝液逐渐从不连续复合纳米纤维转变为连续均匀的复合纳米纤维,纤维直径逐渐增大,当纺丝液中WPUR与PVAL的质量比为30∶70时,得到的复合纳米纤维形貌最佳,其平均直径为330.8 nm,具有最小标准差,为22 nm,同时随着纺丝溶液中PVAL含量的增加,所得复合纳米纤维的结晶性能增强。     

Nano‐carbon black filled Lyocell fiber as a precursor for carbon fiber

In this work, Lyocell fibers filled with various amounts of carbon black were prepared. Wide angle X‐ray diffraction (WAXD) results showed that carbon black filled Lyocell fibers still had a cellulose II crystal structure and kept the characteristic peak of carbon black at the same time. The results of mechanical properties showed a slight reduction in the carbon black filled Lyocell fiber. Moreover, the heat stabilities of the carbon black filled Lyocell fibers showed no obvious change. The residue of carbon black filled Lyocell fiber at 1000°C was higher than that of Lyocell fiber, implying higher carbon yield could be obtained for the carbon black filled Lyocell precursor. Scanning electron microscopy (SEM) experiments showed that the surface and the cross section of carbon black filled Lyocell fiber were smooth and round, which are consistent with the carbon fiber precursor. The WAXD pattern of carbon black filled Lyocell‐based carbon fiber was different from that of Lyocell‐based carbon fiber. The addition of carbon black transfers the diffraction peak of carbon fiber while keeping the characteristic structure of carbon black. The results of mechanical properties of carbon fibers show that, if an appropriate amount of carbon black was chosen, carbon fiber with better properties than Lyocell‐based carbon fiber could be obtained by using the carbon black filled Lyocell fibers as the precursor. © 2005 Wiley Periodicals, Inc. J Appl Polym Sci 99: 65–74, 2006     

Comparison of the structures and properties of Lyocell fibers from high hemicellulose pulp and high α‐cellulose pulp

Lyocell fibers were produced from a cheap pulp with a high hemicellulose content and from a conventional pulp with a high α‐cellulose content. The mechanical properties, supermolecular structure, fibrillation resistance, and dyeing properties as well as the fibril aggregation size of the high hemicellulose Lyocell fiber and high α‐cellulose Lyocell fiber were compared. The results showed that the high hemicellulose spinning solution could be processed at a higher concentration, which improved the mechanical properties and the efficiency of the fiber process. Compared with the high α‐cellulose Lyocell fiber, the high hemicellulose Lyocell fiber had better fibrillation resistance and dyeing properties. Therefore, it is feasible that this cheap pulp with a high hemicellulose content can be used as a raw material for producing Lyocell fibers. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci, 2008     

新型碳纤维用原丝——高强高模Lyocell纤维纺丝工艺研究

采用天然高相对分子质量纤维素脱脂棉为原料 ,制备了高强高模纤维素纤维 ( L yocell纤维 ) ,并用此作为碳纤维原丝 ,成功制得了强度优于粘胶基碳纤维的 L yocell基碳纤维。考察了高相对分子质量纤维素的溶解特点 ,纺丝工艺对 L yocell纤维聚集态及性能的影响 ,比较了 L yocell纤维和粘胶原丝的表面及截面形态。实验表明 :高相对分子质量纤维素溶解的静溶胀时间和温度对其溶解有明显的影响 ;纺丝过程中 ,大的气隙长度对提高纤维的性能有利 ;随着凝固浴中 N -甲基吗啉 N -氧化物( NMMO )的浓度增加 ,纤维的强度和模量增加 ,当其在凝固浴中的质量分数达到 10 %时 ,强度模量最大 ,浓度继续增加 ,纤维的力学性能开始下降 ;拉伸比增加 ,L yocell纤维的强度模量增加 ,当拉伸比大于 3.0时 ,纤维的性能略有下降     

高半纤维素浆粕制备Lyocell纤维的研究

采用半纤维素质量分数21%的高半纤维素浆粕在N-甲基吗琳-N-氧化物(NMMO)水溶液中制备Lyocell纤维,并与半纤维素质量分数为10%的高α-纤维素浆粕的可纺性进行了对比。结果表明:高半纤维素浆粕在溶剂NMMO·H_2O中更易溶解,其过滤性能和可纺性能好,可在较高浆粕浓度下纺丝,制备成Lyo- cell纤维的产率高,且能提高Lyocell纤维的力学性能。高半纤维素浆液的稳定性能略低,在溶剂回收中需要消耗较多的双氧水进行氧化回收溶剂NMMO。     

以离子液体为溶剂的纤维素纤维的结构与性能

以离子液体氯化1-丁基-3-甲基咪唑([BMIM]Cl)为溶剂,制备了纤维素/[BMIM]Cl溶液,探讨了该体系的流变性能,并对所纺得的纤维素纤维的结构与性能进行了分析。结果表明:纤维素/[BMIM]Cl溶液为切力变稀流体,当剪切速率较大时,温度对体系黏度几乎没有影响,因此可以在较高剪切速率下降低纺丝温度;由该体系纺制的纤维具有纤维素II晶型的结构;随着拉伸比的提高,纤维的取向程度及结晶度增大,从而使纤维力学性能提高,所得纤维的表面光滑、结构致密,其染色性能及抗原纤化性能与Lyocell纤维基本相近。从而证明了用离子液体[BMIM]Cl所纺制的纤维素纤维性能良好,可望成为继Lyocell纤维之后的又一新型绿色纤维素纤维。     

Properties and structure of MWNTs/cellulose composite fibers prepared by Lyocell process

Lyocell fiber is a new kind of regenerated cellulose fiber and expected to replace the Rayon fiber to be not only used in the textile field but also used in the fields of industry and aerospace after being modified. In this work, the multi‐walled carbon nanotubes (MWNTs)/Lyocell composite fibers were prepared under different draw ratios by dry‐wet spinning and their electrical properties, mechanical properties, and structure were investigated. It was found that an appropriate amount of MWNTs could be dispersed homogeneously in the Lyocell matrix and could improve the mechanical and thermal properties of composite fiber. The results of wide angle X‐ray diffraction (WAXD) showed that the MWNTs in the composite fiber almost aligned along the axis of the fibers and the orientation of MWNTs increased with the increasing draw ratio. Furthermore, it was found that more MWNTs content and lower draw ratio could improve the electrical conductance of the composite fiber. The composite fiber containing 5 wt % MWNTs has a volume conductivity of 8.8 × 10^?4 S/cm, which is five orders higher than that of pure Lyocell fiber. These results indicate that the MWNTs/Lyocell composite fiber has potential applications in the areas of precursor of carbon fiber and conductive fiber. © 2011 Wiley Periodicals, Inc. J Appl Polym Sci, 2011     

从丝素水溶液中再生的丝纤维的结构与性能

通过使用表面皿直接拉伸、毛细管重力纺丝和人工拉伸3种不同的成丝方法,从高浓度再生丝素水溶液中制得了丝纤维。用偏光显微镜观察了丝纤维的取向,用拉曼光谱仪和Instron拉力仪表征了丝纤维的结构和力学性能。结果发现,经毛细管剪切流动后再拉伸有利于再生丝性能的提高,所得的丝有较好的取向和较多的β折叠结构,力学性能也相对较好。剪切在丝纤维的成形过程中起重要的作用。