Effect of ultrasonic vibration object on machining performance of wire electrochemical micromachining
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Institution:Shandong University, Weihai
Title of Paper:Effect of ultrasonic vibration object on machining performance of wire electrochemical micromachining
Journal:INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY
Key Words:Ultrasonic vibration addedWire electrochemical micromachiningUltrasonic vibration objectMachining accuracySurface roughness
Summary:The development and application of wire electrochemical micromachining (WECMM) technology have become a research hotspot of non-traditional machining. However, a series of problems cannot be eliminated due to the machining products of micromachining gap, which leads to poor machining performance. This paper proposed a new method named ultrasonic vibration-added wire electrochemical micromachining (UA-WECMM) technology, which can solve the mass transfer problem in WECMM with extremely narrow gap. Firstly, the flow field of machining gap was simulated. The results showed that the pressure range of machining gap was larger and was more conducive to the renewal of electrolyte when ultrasonic vibration was added. Secondly, the effects of ultrasonic amplitude and ultrasonic vibration object on machining accuracy and surface quality were compared by experiments, which illustrated that the machining performance was greatly improved with the increase of ultrasonic amplitude of the workpiece. The slit width can be reduced from 196.2 to 151.2 mu m, and the surface roughness can be reduced from R-a 0.863 to R-a 0.259 mu m. Finally, the micro-gear structure with surface roughness of R-a 0.263 mu m and depth-to-width ratio of 6.7:1 was fabricated, which proved that UA-WECMM technology is an effective technology for fabricating metal microstructures with high aspect ratio and good machining quality.
First Author:Peng Tengfei
Correspondence Author:Yong Liu
All the Authors:Li Minghao,Wang Kan
Document Code:10.1007/s00170-021-07396-6
Document Type:Journal article
Volume:116
Page Number:281–291
ISSN:0268-3768
Translation or Not:No
Date of Publication:4436-12
Release Time:2025-05-14