Electrospinning of Nylon-6,6 Solutions into Nanofibers: Rheology and Morphology Relationships

来源 :Chinese Journal of Polymer Science | 被引量 : 0次 | 上传用户:gxlzx
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
The relationship between the rheological properties of nylon-6,6 solutions and the morphology of their electrospun nanofibers was established. The viscosity of nylon-6,6 in formic acid(90%) was measured in the concentration range of 5 wt%-25 wt% using a programmable viscometer. Electrospinning of nylon-6,6 solutions was carried out under controlled parameters. The chemical structure, morphology and thermal properties of the obtained nanofibers were investigated using Fourier transform infrared spectroscopy(FTIR), scanning electron microscopy(SEM) and differential scanning calorimetry(DSC), respectively. Entanglement concentration(ce) was found to be 15 wt% and a power law relationship between specific viscosity and solution concentration was observed with exponents of 2.0 and 3.3 for semi-dilute unentangled(c < ce) and semi-dilute entangled(c > ce) regimes, respectively. The diameter and uniformity of the nanofibers were found to be dependent on the viscosity. Moreover, the average diameter of electrospun nanofibers was found to be dependent on zero shear rate viscosity and normalized concentration(c/ce) in a power law relationship with exponents of 0.298 and 0.816, respectively. For nylon-6,6 solutions, the entanglement concentration(ce = 15 wt%) provides the threshold viscosity required for the formation of a stable polymeric jet during electrospinning and producing uniform beadless fibers. For concentrations less than ce, beaded fibers with some irregularities are formed. DSC analysis showed an increase in crystallinity of all electrospun samples compared to original polymer. Furthermore, Based on FTIR spectroscopy, α phase is dominant in electrospun nanofibers and minor amount of β and γ phases is also available. The relationship between the rheological properties of nylon-6,6 solutions and the morphology of their electrospun nanofibers was established. The viscosity of nylon-6,6 in formic acid (90%) was measured in the concentration range of 5 wt% -25 wt% using a programmable viscometer. Electrospinning of nylon-6,6 solutions was carried out under controlled parameters. The chemical structure, morphology and thermal properties of the obtained nanofibers were investigated using Fourier transform infrared spectroscopy (FTIR), scanning electron microscopy (SEM ) and differential scanning calorimetry (DSC), respectively. Entanglement concentration (ce) was found to be 15 wt% and a power law relationship between specific viscosity and solution concentration was observed with exponents of 2.0 and 3.3 for semi-dilute unentangled (c < ce) and semi-dilute entangled (c> ce) regimes, respectively. The diameter and uniformity of the nanofibers were found to be dependent on the viscosity. Moreover, the average dia meter of electrospun nanofibers was found to be dependent on zero shear rate viscosity and normalized concentration (c / ce) in a power law relationship with exponents of 0.298 and 0.816, respectively. For nylon-6,6 solutions, the entanglement concentration (ce = 15 wt%) provides the threshold viscosity required for the formation of a stable polymeric jet during electrospinning and producing uniform beadless fibers. Furthermore, based on FTIR spectroscopy, α phase is dominant in electrospun nanofibers and minor amount of β and γ phases is also available.
其他文献
小学低段学生,他们由于年龄较小且学习经验不够充足,所以使得他们在学习的过程中难以在最大程度上发散自身的逻辑思维,再加上他们识字量较少,就连一些基本的数学题目都还不能
为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7
中国石油集团测井有限公司 (简称中国石油测井 )、中国石油集团东方地球物理勘探有限责任公司于 2 0 0 2年12月 6日在北京隆重挂牌成立。由饶永久和李剑浩分别出任中国石油测
为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7
一、小学数学应用题教学中存在的问题rn小学数学中的应用题大多是现实问题的数学模型化,是对现实问题的虚拟和模仿,它通常具有唯一性,并且与现实存在一定距离.然而受传统教学
期刊
为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7
在传统的小学数学课堂教学过程中,教师对教材的依赖程度偏高,教学方法也比较单一,难免会导致小学生的学习积极性和主动性不高,潜意识里觉得数学学习枯燥无味,难以进一步提升
Based on ALOS PALSAR images,time series deformation fields of the Agung volcano area were obtained using SBAS-InSAR in 2007-2009.The time series deformation sho
为探究吕家坨井田地质构造格局,根据钻孔勘探资料,采用分形理论和趋势面分析方法,研究了井田7
托尔斯泰说过:“成功的教学不是强制,而是培养学生的兴趣”.对于小学生的数学学习来说,兴趣在其中发挥的作用尤为突出.六七岁的孩子刚跨入学校不久,对于一切都存在着新奇感,
期刊