Micro-ECM of 3D micro-electrode for efficiently processing 3D micro-structure
作者: Bin XuXiao-yu WuJian-guo LeiXiong LiangHang ZhaoDeng-ji GuoShuang-chen Ruan
作者单位: 1Shenzhen University
刊名: The International Journal of Advanced Manufacturing Technology, 2017, Vol.91 (1-4), pp.709-717
来源数据库: Springer Nature Journal
DOI: 10.1007/s00170-016-9825-4
关键词: Micro-ECM3D micro-electrode3D micro-structureRidges
英文摘要: Applying 3D micro-electrodes in micro-electrical discharge machining (micro-EDM) can process a 3D micro-structure with up and down reciprocating machining method. However, this method has some shortcomings, such as the formation of ridges on 3D micro-structure surface and a relatively low processing efficiency. To resolve these shortcomings, this study fabricated 3D micro-electrode and applied it in micro-electrochemical machining (micro-ECM). Based on the principle of electrolytic polishing, the ridges on the 3D micro-structure surface were basically eliminated and make the ridges have little influence on the 3D micro-structure surface. Moreover, with a feeding speed of 50 μm/min, it takes only 8 min to process a 3D micro-structure (360-μm depth) by using micro-ECM. With the improvement...
原始语种摘要: Applying 3D micro-electrodes in micro-electrical discharge machining (micro-EDM) can process a 3D micro-structure with up and down reciprocating machining method. However, this method has some shortcomings, such as the formation of ridges on 3D micro-structure surface and a relatively low processing efficiency. To resolve these shortcomings, this study fabricated 3D micro-electrode and applied it in micro-electrochemical machining (micro-ECM). Based on the principle of electrolytic polishing, the ridges on the 3D micro-structure surface were basically eliminated and make the ridges have little influence on the 3D micro-structure surface. Moreover, with a feeding speed of 50 μm/min, it takes only 8 min to process a 3D micro-structure (360-μm depth) by using micro-ECM. With the improvement...
全文获取路径: Springer Nature  (合作)
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关键词翻译
关键词翻译
  • micro 
  • ECM Effective Complex Modules
  • processing 加工
  • structure 构造
  • electrode 电极
  • shortcomings 缺点
  • machining 机械加工
  • fabricated 制造
  • efficiency 效率
  • surface