Nonafiber Membrane of EVOH-Based Ionomer by Electrospinning

W. Jin, Hongwei Duan, Yujun Zhang, Feng-fu Li
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引用次数: 1

Abstract

Electrospinning is a straightforward and effective technique to produce nanofiber nonwovens. In this paper, a comb ionomer of poly(ethylene covinyl alcohol) end-capped with sulfonic acid (EVOH-g-SO 3H) was synthesized by two-step synthesis process and electrospun into nonwoven membranes. The effect of processing parameters on the fibrous and beads morphology was investigated by scanning electron microscopy (SEM). The result indicated that the morphology of EVOH-g-SO3H membrane was heavily dependent on the electrospinning process as the electrospinning voltage (v), the concentration of polymer solution (c), the surface tension of polymer solution (sigma), the solution flow-rate (upsi), and the deposition distance between the syringe needle and the collecting drum (1). A 'beads-on-string' morphology could be seen from SEM image when the solution was electrospun in DMAc/water while decreasing the surface tension is a good way towards the formation of fibers without beads. When the solution concentration reaches 35wt%, a melded twist-ribbon structure could appear. There is an optimum range of solution concentration (5.0~20.0wt%) for a stable electrospinning and nonwoven formation. A higher applied voltage could result in a higher electric charge density on the surface of polymer solution jet during the electrospinning, they cause the higher splitting to the polymer jet and result in higher density and smaller diameter of round beads, as well as they also produce the thinner diameters fibers
静电纺丝法制备evoh基离聚体非纤维膜
静电纺丝是生产纳米纤维非织造布的一种简单有效的技术。本文采用两步法合成了端部以磺酸为底的聚乙烯醇(evoh -g- so3h)梳状离聚体,并用静电纺丝制备了无纺布膜。利用扫描电子显微镜(SEM)研究了工艺参数对纤维和微球形貌的影响。结果表明:静电纺丝电压(v)、聚合物溶液浓度(c)、聚合物溶液表面张力(sigma)、溶液流速(upsi)、在DMAc/水中静电纺丝时,SEM图像可以看到“串上珠”的形貌,而降低表面张力是形成无珠纤维的好方法。当溶液浓度达到35wt%时,可出现融合的扭带结构。对于稳定的静电纺丝和非织造布的形成,溶液浓度的最佳范围为5.0~20.0wt%。在静电纺丝过程中,施加电压越高,聚合物溶液射流表面的电荷密度越高,它们对聚合物射流的劈裂作用越大,形成的圆珠密度越大,直径越小,纤维直径越细
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