摘要
以聚苯乙烯为原材料,观察在不同电压条件下以及射流不同区域的串珠纤维,研究电压对串珠形态、纤维运动速度的影响以及串珠形态在射流过程中的演变。采用高速摄影,显微镜对射流过程以及纤维形态进行表征。运用有限元仿真软件对电场、串珠形貌和串珠纤维运动速度进行模拟,建立串珠模型。研究结果表明:纺丝电压增大,射流受到的拉伸作用更明显,串珠形态逐渐由近似圆形变为纺锤形,同时串珠的表面速度也随着电压的增大而增大,实验结果与仿真模拟结果一致;射流直线段并未出现串珠结构,串珠在鞭动区域逐步形成,同时,在越靠近接收装置的射流区域,串珠纤维受到的拉伸作用越明显。
Objective The sizes and morphologies of microbeads on beaded fibers will lead to great differences in the overall performance of electrospinning fiber membranes,and thus fiber membranes with specific functions can be prepared in a directional manner by adjusting the size and morphology of beads on beaded fibers.As an important factor affecting the electrospinning process,electric field has not been used as the main research object in the process of preparing beaded fibers up to date.Therefore,it is necessary to investigate the influence of applied voltage on the structure and morphology of microbeads during electrospinning.Method Beaded fibers were prepared by electrospinning using polystyrene(PS).Light microscope and scanning electron microscope(SEM)were adopted to observe the morphology of fibers,and the influence of applied voltage on the morphology of microbeads was studied.By observing the beaded fibers intercepted in different areas of the electrospinning jet,the evolution of beading morphology during jet whipping was explored.At the same time,the finite element simulation software COMSOL was adopted to simulate the three-dimensional electric field,bead morphology and beaded fiber movement speed.The simulation results were compared with the experimental results for model validation.Results Based on the simulation results of the magnitude and direction of the electric field,it is evident that the strong electric field is mainly concentrated near the spinneret.As the spinning voltage increases,greater electric field strength in the spinning area leads to stronger tensile effect of the jet.This results in a beaded shape that is approximately circular at an applied voltage of 15 kV and the beaded fibers are bent disorderedly.When the applied voltage is 25 kV,the shape of the beads is close to the spindle shape,and the fibers between the beads are more regular and orderly.As the spinning voltage increases,the speed of the beaded fibers gradually increases.When the voltage is in the range of 20 and 25 kV,the speed of the beaded fibers increases more significantly,because at larger spinning voltages,the solution in the jet is more polarized,the charge on the jet surface is higher,and the force of the electric field is stronger.Owing to the larger surface area of the bead,more charge is generated by the electric field polarization of the jet in the beaded part,which is associated to stronger the electric field drafting,resulting in a greater speed in the beaded part than the speed of the fiber part.It is clearly shown that only the Shish-Kebab(string crystal)structure exists in the linear segment of the jet.This is because the strong electric field is concentrated near the spinneret and the polymer is strongly sheared or stretched.Gradual formation of a beaded structure is observed at the end of the straight segment,because the large tensile force of the electric field causes the jet to break,the broken jet is directly drawn from the Taylor cone,and the droplet tends to contract to form beaded fibers.The result also shows that the closer is the fiber morphology intercepted in the spinning direction to the collector,the longer the electric field of the jet is subjected to and the longer the whipping disturbance action time.The shape of the beads gradually tends to spindle shape under the action of stretching.Conclusion In this paper,PS was used as raw material to prepare beaded fiber membranes by electrospinning method,and the evolution process of solution electro spun PS beaded fibers and the influence of spinning voltage on beaded morphology and fiber speed were investigated.The experimental results provide a theoretical basis for the controllable preparation of beaded fibers.1)In the process of electrospinning,as the applied voltage increases,the stretching effect of the jet is more obvious,the beaded shape gradually changes from an approximate sphere to a spindle shape,and the movement speed of the beaded fiber also increases with the increase of the applied voltage.2)The beaded structure is not formed on the linear segment of the jet,and gradually forms in the whipping zone,and the jet zone is made closer to the collector,the jet is subjected to the electric field and whipping action for a longer time,and the stretching effect of the beaded fiber is more obvious.
作者
葛铖
郑元生
刘凯
辛斌杰
GE Cheng;ZHENG Yuansheng;LIU Kai;XIN Binjie(School of Textiles and Fashion,Shanghai University of Engineering Science,Shanghai 201620,China;Key Laboratory of Yarn Materials Forming and Composite Processing Technology of Zhejiang Province,Jiaxing University,Jiaxing,Zhejiang 314001,China)
出处
《纺织学报》
EI
CAS
CSCD
北大核心
2023年第3期36-41,共6页
Journal of Textile Research
基金
国家自然科学基金项目(11702169)
浙江省纱线材料成形与复合加工技术研究重点实验室开放基金项目(MTC-2022-01)。
关键词
静电纺丝
串珠纤维
成形过程
纺丝电压
有限元模拟
electrospinning
beaded fiber
forming process
spinning voltage
finite element simulation