静电纺丝制备不同形态PA66胶体晶体纤维

Current Chinese Science Pub Date : 2023-05-16 DOI:10.2174/2210298103666230516153457

Jingxia Wang, Guangchen Pei, Pingping Wu

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引用次数: 0

摘要

胶体晶体(CC)纤维具有独特的光操纵特性、纤维柔韧性和作为化学染料替代品在纺织工业中的应用潜力。在CC纤维中引入聚酰胺66 (PA66)可以有效地提高纤维的性能。本研究以高强度聚酰胺66 (PA66)和P(St-MMA-AA)乳胶颗粒为原料，采用静电纺丝法制备了密实、镶嵌、面条状、纺锤结、竹状、半封闭、帽状等多种形态的聚酰胺66 (PA66) CC纤维。基于相分离和组装相互作用分析了各种纤维的形成机理。制备的PA66 CC纤维薄膜具有独特的结构颜色和增强的力学性能，可作为绘制各种图案的基材。本研究为功能性CC纤维的制备提供了新的思路，有助于其在纺织工业中的潜在应用。

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Electrospinning Fabrication of PA66 Colloidal Crystal Fibers with Various Morphologies

Colloidal crystal (CC) fiber has unique light manipulation characteristics, fiber flexibility, and the potential to be used in the textile industry as an alternative to chemical dyes. Introducing polyamide 66 (PA66) into CC fiber can effectively improve the performance of fibers. In this study, polyamide 66 (PA66) CC fibers with various morphologies were fabricated by electrospinning using high-tensile PA66 and P(St-MMA-AA) latex particles as raw materials, such as close-packed, inlaid, noodle-like, spindle knots, bamboo-like, semi-enclosed, hat-like, etc. The formation mechanism of various fibers was analyzed based on the phase separation and assembly interaction. The prepared PA66 CC fiber film was reported to have unique structural color and enhanced mechanical properties, which can be used as a substrate for drawing various patterns. This work will provide a novel idea for the fabrication of functional CC fiber, which is helpful for the potential application in the textile industry.

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Current Chinese Science

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