1) multiple nozzles electrospinning
多喷头静电纺丝
1.
The research and development of electrospinning,multiple nozzles electrospinning and multiple nozzles electrospinning machine were introduced,the research direction of multiple nozzles electrospinning was also indicated.
介绍了多喷头静电纺丝、多喷头静电纺丝电场和多喷头静电纺丝机的研究现状,指出了多喷头静电纺丝的研究方向。
2) twin-spinneret electrospinnig
双喷头静电纺丝
3) electro-spinning
静电纺丝
1.
Exploration of fabricating MAV foils using electro-spinning method;
静电纺丝法制备仿生MAV翼初探
2.
PVP/Gd(NO3)3·Eu(NO3)3 composite fibers were prepared by electro-spinning technique with Gd(NO3)3·6H2O,Eu(NO3)3·6H2O and PVP as starting materials.
6H2O反应制得前驱体溶液,采用静电纺丝技术制备了PVP/Gd(NO3)3。
3.
It is suggested that solid carbon nanofibers can be made by electro-spinning method.
指出静电纺丝技术可制得实心碳纳米纤维。
4) electrostatic spinning
静电纺丝
1.
It points out that textile nanofiber,solid-core carbon nanofiber,biodegradable nanofiber,and conductive hybrid nanofibers of polymers can be manufactured by the electrostatic spinning process,and their diameters are dependent on the spinning technological parameters.
指出静电纺丝技术可制得聚合物纳米纺织纤维长丝、实心纳米碳纤维、生物降解性聚合物纳米纤维和聚苯胺及其与常规聚合物共混的纳米导电纤维,其直径取决于纺丝工艺参数;静电纺丝是得到纳米纤维最重要的方法,也是最有可能实现纳米纤维工业化生产的技术。
2.
The article discusses particularly the electrostatic spinning of natural polymers.
静电纺丝技术是一种直接且相对容易的纳米纤维制备方法。
3.
Biodegradable ultrafine fibers of polylactide (PLA) and poly(L-lactide-co-ε-caprolactone)(PLLA-CL) were produced by electrostatic spinning with acetone as solvent.
以丙酮为溶剂,用静电纺丝法,制备了聚丙交酯(PLA)及其与己内酯共聚物(PLLA CL)的超细纤维。
5) electrospun
静电纺丝
1.
Brief study on the processing theory、actuality and application of electrospun nanofibers;
静电纺丝纳米纤维的工艺原理、现状及应用前景
2.
Progress in Manufacture and Application of Oriented Electrospun Nanofibers
取向静电纺丝纳米纤维的制备及应用研究进展
3.
The application of electrospun chlorinated PVC fiber membrane to dust respirator and air cleaner for removing PM_(10) for was studied,based on talc dust and smoke fog.
静电纺丝纳米纤维膜是一种新型空气净化过滤材料。
6) electrospinning
静电纺丝
1.
Progress in the Electrospinning of Biopolymers;
生物高分子静电纺丝研究进展
2.
Preparation of Sulfated Zirconia/Silica Complex Nanofibers by Electrospinning Method;
静电纺丝法制备硫酸化的二氧化锆/二氧化硅复合纤维
3.
The Influence of Several Chief Parameters in Electrospinning on the Morphology of PLGA Fiber Scaffolds and the Fiber Diameter;
静电纺丝的主要参数对PLGA纤维支架形貌和纤维直径的影响
补充资料:静电雾化喷头
静电雾化喷头
electrostatic atomizing nozzle
静电井化喷头(eleetrostatic。tomizingnozzle)直接利用电能使药液雾化的装置。一种手持式静电雾化喷头的结构如图。主要包含一对电极,即商电压的喷嘴和圈绕喷嘴的环形低电压对电极。┌───┐│/ │├───┤│,! │├───┤│了日丈│└───┘ 手持式静电雾化 喷头示意图1.药液容界,2.高电压喷嘴,3.低电压对电极;4.喷头早.5.商电压电缆;6.手柄其喷嘴由内外两管构成,两管间间隙很小,药液依靠重力由此间隙内流出,内管通有高电压;高压电是由装在手柄内的电池和电压转换器两部分组成的高压电发生器供给的。电压转换器为固态元件,装在小管中,以增强其机械强度和使用可靠性。当药液从喷嘴流出时,承受电极间强烈电场的影响,使药液带有与喷嘴极性相同的电荷,在喷嘴的间隙内,由于电场的影响,产生许多波动的药液条带,随即形成雾滴。在喷头与目标物(如农作物等)间的高电位差所产生的强电场的作用下雾滴飞向目标。 此喷头能t转换效率高,能量消耗低;雾滴大小均匀,其尺寸可以通过电压予以调节;雾滴运动速度快,滚移t少,雾滴沉降轨道弯曲,粘附率高;操作人员中毒危害小;无活动部件;雾滴沉积不需借助重力或风力等外界因家。但药液的粘度与导电率要在一定范围之内,一般为油剂,喷头的喷量小,生产率较低。 (高良润)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条