静电纺丝操作简单、制造成本低、适应范围广,电纺丝纳米纤维性能优越,在柔性电子、生物医学和MEMS等领域受到了广泛的关注。传统的静电纺丝制备得到的纳米纤维呈现无序状态,这给纳米纤维的研究和应用带来了极大的不便和困难。近场静电纺丝技术可实现电纺过程的可控,制备得到排列有序且连续的纳米纤维。基于近场静电纺丝的微/纳米结构直写技术在电纺丝领域中具有广阔的发展前景,而该直写技术的关键是纺丝轨迹控制的实现。本文根据构建的“PC+运动控制卡”开放式数控系统,提出一种用于近场静电纺丝预定轨迹加工的自动编程系统。该系统通过提取出预定轨迹的二维图形信息,结合用户输入的加工参数实现自动编程,自动生成数控加工的机器码...Electrospinning which is cost-effective and simply operated adapts to a wide range in manufacturing. Due to the superior performance, electrospinning nanofiber receives widespread concern in many fields, like flexible electronics, biomedical and MEMS. The nanofiber obtained by the traditional electrospinning present disordered state, which limits the research and application of nanofiber, and make...学位:工学硕士院系专业:物理与机电工程学院机电工程系_机械电子工程学号:1992008115293
