含纳米铝粉的纳米NC纤维的制备

为了克服纳米铝粉在推进剂使用过程中分散不均匀的问题,采用静电纺丝技术制备了材料表面光滑、直径均匀、且纳米铝粉分散均匀的纳米NC纤维.用扫描电镜研究了含水率、溶液浓度、电压和挤出速率对纤维形态和直径的影响,得到静电纺丝最佳工艺条件:含水率为10%～15%,NC纺丝液质量分数5%～10%,电压25～30kV,挤出速率0.5...     

静电纺丝法纺制聚乳酸纳米纤维无纺毡

采用静电纺丝法制备了生物降解聚乳酸(PLLA)纳米纤维无纺毡。分析了纺丝液浓度、电压、接收距离、挤出速度等因素对纤维形态的影响。结果表明:纺丝液的浓度和挤出速度对纤维直径的影响较为明显,溶液挤出速度增大,所得纤维微孔含量及尺寸也增大;适当的电压和接收距离有利于收集无液滴纤维;随着纤维直径的减小,无纺毡的孔径呈减小趋势。在PLLA质量分数为5．7％、挤出速度0．8 mL／h、接受距离 15．5 cm、电压8 kV的静电纺丝条件下,可制备纤维直径为200-400 nm的PLLA纳米纤维无纺毡。     

静电纺丝热塑性聚氨酯纳米纤维的制备

将N,N-二甲基甲酰胺（DMF）和四氢呋喃（THF）按体积比0：4、1：3、2：2、3：1、4：0混合作为溶剂,确定配比后,在不同浓度、电压下对热塑性聚氨酯（TPU）溶液进行静电纺丝。结果表明,DMF与THF的体积比对聚氨酯静电纺丝纤维的形貌、直径及其均匀性有明显影响,当混合溶液体积比为2：2,浓度为0．18g／mL,电压为26kV时,TPU纺丝液纺丝效果最佳,得到最理想的纤维;纤维直径随DMF含量的增多而减小,但当DMF含量过多时,纤维上容易出现液滴,纤维形貌变差;TPU纺丝液浓度增大,纤维直径增大;电压增大,纤维直径减小。     

PVA静电纺丝工艺优化研究

以聚乙烯醇(PVA)为原料、去离子水为溶剂,通过静电纺丝制备PVA纳米纤维膜,利用正交实验探讨静电纺丝过程中纺丝液PVA浓度、纺丝距离、纺丝电压和注射速度对PVA纳米纤维膜形貌及纤维直径的影响,得出制备纤维膜的较佳工艺条件,并分析了纺丝液PVA浓度对纤维膜的力学性能和亲水性能的影响。结果表明：随着纺丝液PVA浓度的增加,PVA纤维的直径逐步变小,直径分布变窄;当纺丝液PVA质量分数为7%、纺丝电压为14 kV、纺丝距离为14 cm、注射速度为0.5 mL/h时,纤维膜的纤维直径最小,为203 nm;正交实验中PVA浓度、纺丝电压、纺丝距离、注射速度4个因素的极差值分别为87.00,49.67,18.33,11.67;纺丝液PVA质量分数从5%增加到7%,纤维膜的断裂强度从2.21 MPa提高至2.81 MPa,断裂伸长率从31.63%提高至56.39%,水接触角从37.7°提高至48.7°。     

基于气流雾化静电纺纳米纤维的制备及其空气过滤性能

为克服传统单针头静电纺丝生产效率低的问题,在现有气流辅助静电纺丝的基础上设计一种基于气流雾化静电纺丝装置。以聚丙烯腈(PAN)溶液为纺丝液,采用自主设计的气流雾化静电纺丝装置制备纳米纤维膜,分析了其成形原理和过程以及气流压力、纺丝电压对成形纤维形态和直径的影响,并测试其空气过滤性能。结果表明:当纺丝液的质量分数为12%,纺丝气压为0.2 MPa,纺丝电压为30 kV时,纤维的平均直径均为200 nm左右,产量达5 g/h,其过滤效率高达97.5%,气流雾化静电纺丝为纳米纤维批量化制备提供了新途径。     

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。     

电纺聚己内酯纤维直径工艺参数正交设计优化

本研究采用正交设计法研究静电纺丝法工艺过程对聚己内酯纤维直径的影响因素。主要研究纺丝液浓度、纺丝电压、注射泵进料速率三个因素对于纤维直径的影响。结果表明溶液浓度是影响纤维直径最主要的因素,次要影响因素是纺丝电压、进料速率。同时成功制备了纤维直径分别为0.35±0.09μm,0.95±0.09μm,6.48±0.50μm的聚己内酯纤维支架,可作为基底模板,用于研究同种材料不同直径的纤维支架对细胞行为的影响。     

静电纺工艺参数对SEBS纤维形貌和直径的影响

通过静电纺丝,将苯乙烯-乙烯-丁烯-苯乙烯嵌段共聚物(SEBS)溶解于四氢呋喃(THF)中的纺丝液制备成SEBS纤维,探索了纺丝液质量分数、纺丝电压和接收距离对纤维形貌及直径的影响。通过扫描电镜观察SEBS纤维的形貌以及Photoshop软件测量了SEBS纤维的直径。结果表明,纺丝液质量分数为25%、纺丝电压为10 kV、接收距离为15 cm时,纤维成型性良好,平均直径为9.7727μm;纤维直径随着电压的增大而减少,随着接收距离的增大而先减小后增大。     

静电纺丝制备聚醚酮酮超细纤维

用溶液静电纺丝方法制备了聚醚酮酮超细纤维,用扫描电子显微镜研究了实验过程中纺丝电压、纺丝距离、流量、纺丝液浓度对于聚醚酮酮纤维直径和形貌的影响,并对多个纺丝参数的影响规律进行了分析。实验结果表明,在一定条件下纺丝电压和纺丝距离对纤维直径影响较小,而流量和纺丝液浓度能显著影响纤维直径,在小流量、低浓度容易得到较细的纤维,并且纤维直径分布集中。     

静电纺丝制备PANi/PEO微/纳米纤维的研究

采用静电纺丝制备了PANi/PEO微/纳米纤维,研究了纺丝液中PANi/PEO的质量比、纺丝电压、注射流速和喷丝针头孔径对纤维形貌的影响.研究结果表明,PEO含量的增加不仅会增强纺丝液的成纤能力,也会增大纤维的平均直径;纺丝电压的提高有利于纤维的细化,但断丝现象也增强;纤维的平均直径随注射流速和喷丝头孔径的增大而增大.所制备出的PANi/PEO纤维直径分布为258～843 nm.     

气流-静电纺丝法制备苯乙烯—丁二烯—苯乙烯嵌段共聚超细纤维

采用75%四氢呋喃(THF)和25%N,N-二甲基甲酰胺(DMF)的混合溶液作溶剂,通过气流-静电纺丝法制备了苯乙烯-丁二烯-苯乙烯嵌段共聚物(SBS)超细纤维。利用扫描电镜(SEM),研究了溶液浓度、电压、接收距离(喷丝孔到接收板的距离)、喷丝孔内径对静电纺纤维的直径和形貌的影响。研究发现:溶液浓度对电纺纤维的直径和形貌有非常重要的影响,当溶液浓度由10%增加到18%时,电纺纤维平均直径随之成线性增加;当电压由23.8kV增加到33.8kV时,纤维平均直径先减小后增加。最佳工艺条件为:溶液质量分数为14%,电压为28.8kV,接收距离为20cm,喷丝孔内径为0.27mm,所得SBS电纺超细纤维平均直径为429nm。     

Morphology of electrospun nylon‐6 nanofibers as a function of molecular weight and processing parameters

In the present study, the morphology and mechanical properties of nylon‐6 nanofibers were investigated as a function of molecular weight (30,000, 50,000, and 63,000 g/mol) and electrospinning process conditions (solution concentration, voltage, tip‐to‐collector distance, and flow rate). Scanning electron micrographs (SEM) of nylon‐6 nanofibers showed that the diameter of the electrospun fiber increased with increasing molecular weight and solution concentration. An increase in molecular weight increases the density of chain entanglements (in solution) at the same polymer concentration; hence, the minimum concentration to produce nanofibers was lower for the highest molecular weight nylon‐6. The morphology of electrospun fibers also depended on tip‐to‐collector distance and applied voltage concentration of polymer solution as observed from the SEM images. Trends in fiber diameter and diameter distribution are discussed for each processing variable. Mechanical properties of electrospun nonwoven mats showed an increase in tensile strength and modulus as a function of increasing molecular weight. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci, 2008     

The influence of electrospinning parameters on the structural morphology and diameter of electrospun nanofibers

Electrospinning is a simple method of producing nanofibers by introducing electric field into the polymer solutions. We report an experimental investigation on the influence of processing parameters and solution properties on the structural morphology and average fiber diameter of electrospun poly ethylene oxide (PEO) polymer solution. Experimental trials have been conducted to investigate the effect of solution parameters, such as concentration, molecular weight, addition of polyelectrolyte in PEO solution, solvent effect, as well as governing parameter, such as applied voltage. The concentration of the aqueous PEO solution has shown noteworthy influence on the fiber diameter and structural morphology of electrospun nanofibers. At lower concentrations of PEO polymer solution, the fibers showed irregular morphology with large variations in fiber diameter, whereas at higher concentrations, the nanofibers with regular morphology and on average uniform fiber diameter were obtained. We find that the addition of polyelectrolytes, such as sodium salt of Poly acrylic acid (PAA) and Poly allylamine hydrochloride (PAH), increases the conductivity of PEO solutions and thereby decreases the bead formation in electrospun nanofibers. The increase in applied voltage has been found to affect the structural morphology of nanofiber while the addition of ethanol in PEO solution diminishes the bead defects. © 2009 Wiley Periodicals, Inc. J Appl Polym Sci, 2010     

聚醚砜的静电纺丝研究

采用聚醚砜(PES)的良溶剂二甲基甲酰胺(DMF)和非良溶剂丙酮(AC)为共溶剂体系,研究了溶剂组成、纺丝成形条件对静电纺丝PES纤维的形貌及纤维直径的影响。结果表明:DMF/AC的配比对于静电纺丝PES纤维形貌具有直接的调控作用,随着DMF/AC混合溶剂中AC用量的增加,纤维平均直径变大,纤维毡中串珠数目明显减少,纤维均一性变好;随着纺丝液浓度的升高,纺丝电压的增大,纤维的平均直径变大;接收距离的变化对纤维平均直径影响不大;PES最佳纺丝工艺条件为纺丝溶液质量分数13%,纺丝电压15 kV,接收距离10 cm,mDMF/mAC为8.5/1.5,在此条件下,可以获得纤维平均直径为96 nm的PES纤维毡。     

Filtration properties of electrospun ultrafine fiber webs

Electrospun fiber webs were prepared at various spinning conditions. The effect of electrospinning parameters on fiber morphology and filtration performance of electrospun webs was investigated. The processing variables considered were only the applied voltage and rotation speed of a drum type collector. The fiber diameter and mean pore size of the electrospun webs decreased with increasing applied voltage and collector speed. Pressure drop and aerosol collection efficiency of the electrospun fiber webs were increased with decreasing fiber and pore size. Additionally, it was found that the filtration performance of the electrospun web was much greater than that of a commercial high efficiency air filter media made of glass fibers.     

Morphology of ultrafine polysulfone fibers prepared by electrospinning

Ultrafine fibers of bisphenol‐A polysulfone (PSF) were prepared by electrospinning of PSF solutions in mixtures of N,N‐dimethylacetamide (DMAC) and acetone at high voltages. The morphology of the electrospun PSF fibers was investigated by scanning electron microscopy. Results showed that the concentration of polymer solutions and the acetone amount in the mixed solvents influenced the morphology and the diameter of the electrospun fibers. The processing parameters, including the applied voltage, the flow rate, and the distance between capillary and collection screen, were also important for control of the morphology of electrospun PSF fibers. It was suggested that uniform ultrafine PSF fibers with diameter of 300–400 nm could be obtained by electrospinning of a 20 % (wt/v) PSF/DMAC/acetone (DMAC:acetone = 9:1) solution at 10–20 kV voltages when the flow rate was 0.66 ml h^?1 and capillary–screen distance was 10 cm. Copyright © 2004 Society of Chemical Industry     

Electrospun nanofibers of block copolymer of trimethylene carbonate and ϵ‐caprolactone

The electrospinning behavior of a block copolymer of trimethylene carbonate (TMC) and ε‐caprolactone dissolved in N,N‐dimethylformamide (DMF) and methylene chloride (MC) was studied. The effects of the blended solvent volume ratio, concentration, voltage, and tip–collector distance (TCD) on the morphology of the electrospun fibers were investigated by scanning electron microscopy. The results indicated that the diameter of the electrospun fibers decreased with a decreasing molar ratio of MC to DMF, but beads formed gradually. With a decreasing concentration of the solution, the fiber diameter decreased; at the same time, beads also appeared and changed from spindlelike to spherical. A higher voltage and larger TCD favored the formation of smaller diameter electrospun fibers. The results of differential scanning calorimetry and X‐ray diffraction showed that the crystallinity and melting point of the electrospun fibers decreased when increasing the TMC content in the copolymer. Compared with the corresponding films, the crystallinity and melting point of the electrospun fibers were obviously increased. © 2005 Wiley Periodicals, Inc. J Appl Polym Sci 99: 1462–1470, 2006     

Study on the formation and structural evolution of bead‐on‐string in electrospun polysulfone mats

Bead‐on‐string is a desirable morphology for some emerging applications of electrospun mats such as superhydrophobic surfaces. In this study, the bead‐on‐string morphology in electrospun polysulfone (PSU) mats was investigated and correlated with the solution concentration, voltage and feed rate. PSU/dimethylformamide solutions with different concentrations (4, 5.5, 7, 15, 18 and 20 wt% PSU) were electrospun at a constant feed rate (3.5 mL h^–1) and voltage (15 kV). Critical chain overlap and entanglement concentrations were found to be 3.65 and 7.12 wt% PSU, respectively. The bead‐on‐string morphology was detected in the concentration range 7–18 wt% PSU, in close agreement with theoretical estimations. The evolution of the bead‐on‐string morphology in mats prepared from 15 wt% PSU solution and electrospun at three feed rates (i.e. 1.5, 2.5 and 3.5 mL h^–1) and voltages (i.e. 12.5, 15 and 18 kV) were also studied. The results showed that the beads appear less in number as either the feed rate or the voltage increases. In addition, the morphology of the beads revealed a transition from a spherical to a spindle‐like appearance with an increase in voltage. The effect of feed rate on bead geometry, however, was revealed to depend on the applied voltage. © 2020 Society of Chemical Industry     

气流-静电纺丝法制备聚对苯二甲酸乙二酯纳米纤维

采用50%苯酚和50%1,1,2,2-四氯乙烷的混合溶液为溶剂,通过气流-静电纺丝法制备了聚对苯二甲酸乙二酯(PET)纳米纤维。利用扫描电镜(SEM),研究了聚合物分子质量、溶液浓度、电压、接收距离(喷丝孔到接收板的距离)对电纺纤维形态结构的影响。结果表明:随着聚合物分子质量和溶液浓度增加,纤维平均直径也随之增加;纤维平均直径随电压的增加而减小;随接收距离的增加,纤维平均直径先减小后增加。最佳工艺条件为:聚合物特性黏度为0.818 dL/g,溶液质量分数为15%,电压为32 kV,接收距离为23 cm,所得PET电纺纳米纤维平均直径为85 nm。