The Effects of Polyethylene Glycol on the Spinnability of Dry-jet Wet Spinning Heterocycle Aramid Fiber

IF 2.2 4区 工程技术 Q1 MATERIALS SCIENCE, TEXTILES
Jinsong Liang, Qibao Xie, Wenjie Feng, Bo Li, Tao Peng, Kejie Liu, Mengjin Jiang
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引用次数: 0

Abstract

The spinnability of semi-dilute poly(p-phenylene-benzimidazole-terephthamide) (PBIA) spinning solution was regulated by a small amount of polyethylene glycol (PEG) to make it suitable for dry-jet wet spinning. The effects of different molecular weights and contents of PEG on the rheological properties and spinnability of PBIA spinning solution were investigated. Results show that the PBIA spinning solution with PEG 50,000 has the highest viscosity and the best spinnability, which can be smoothly spun by dry-jet wet spinning. The dynamic viscoelasticity study shows that the energy storage modulus and loss modulus of the PBIA spinning solution keeps increasing with PEG 50,000 and achieves the maximum value of 0.5% wt. The maximum draw ratio between the first roll and the spinneret (Dm) also reached a maximum value of 3.0 when the addition of PEG 50,000 reached 0.5% wt. Moreover, primary PBIA fibers prepared by dry-jet wet spinning and a higher draw ratio have a smoother surface appearance and better mechanical properties.

聚乙二醇对干喷湿纺杂环芳纶纤维可纺性的影响
用少量聚乙二醇(PEG)调节半稀对苯并咪唑-对苯甲酰胺(PBIA)纺丝溶液的可纺性,使其适合于干喷湿法纺丝。研究了不同分子量和PEG含量对PBIA纺丝液流变性能和可纺性的影响。结果表明,添加PEG5000的PBIA纺丝液具有最高的粘度和最佳的可纺性,可通过干喷湿法纺丝顺利纺丝。动态粘弹性研究表明,PBIA纺丝溶液的储能模量和损耗模量随着PEG5000的加入而不断增加,并达到了0.5%wt的最大值。当PEG5000加入量达到0.5%wt时,第一辊和喷丝头之间的最大拉伸比(Dm)也达到了3.0。此外,通过干喷湿法纺丝和较高的拉伸比制备的初级PBIA纤维具有更光滑的表面外观和更好的机械性能。
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来源期刊
Fibers and Polymers
Fibers and Polymers 工程技术-材料科学:纺织
CiteScore
3.90
自引率
8.00%
发文量
267
审稿时长
3.9 months
期刊介绍: -Chemistry of Fiber Materials, Polymer Reactions and Synthesis- Physical Properties of Fibers, Polymer Blends and Composites- Fiber Spinning and Textile Processing, Polymer Physics, Morphology- Colorants and Dyeing, Polymer Analysis and Characterization- Chemical Aftertreatment of Textiles, Polymer Processing and Rheology- Textile and Apparel Science, Functional Polymers
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