Edge finishing and deburring of back surfaces of microholes using micro-cutting tools

► The edge finishing and deburring of the back surfaces of micro-through holes from the front surfaces are carried out. ► Micro-cutting tools are fabricated by EDM and used for processing holes. ► Helical tool feeding is employed and workpieces are ultrasonically oscillated. ► A hole drilled using a...

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Bibliographic Details
Published in:Precision engineering 2013-04, Vol.37 (2), p.248-254
Main Authors: Egashira, Kai, Nomura, Yosuke, Murozaki, Yuichi, Fukui, Jimpei
Format: Article
Language:English
Subjects:
Back surface
Cutting
Cutting force
Cutting tools
Deburring
Edge finishing
Feeding
Finishing
Helical tool feeding
Microhole
Microholes
Microtool
Oscillations
Ultrasonic oscillation
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Summary:► The edge finishing and deburring of the back surfaces of micro-through holes from the front surfaces are carried out. ► Micro-cutting tools are fabricated by EDM and used for processing holes. ► Helical tool feeding is employed and workpieces are ultrasonically oscillated. ► A hole drilled using a 0.15-mm-diameter drill in a 0.2-mm-thick plate is successfully deburred and edge-finished. The edge finishing and deburring of the back surfaces of micro-through holes, such as those with a diameter smaller than 1mm, from the front surfaces by cutting are difficult and in some cases impossible with currently available tools. We have therefore fabricated micro-cutting tools by electrical discharge machining and used them for processing the back surfaces of microholes using helical tool feeding with the assistance of ultrasonic oscillation. As a result, a hole drilled using a 0.15-mm-diameter drill in a 0.2-mm-thick plate was successfully deburred and edge-finished. This is the hole with the smallest diameter whose back surface was processed from the front surface by cutting, to the best of our knowledge. The effects of ultrasonic oscillation, namely, cutting force is reduced and the generation of secondary burrs is restrained, were also observed in this study. Moreover, cutting force was further reduced with an improved geometry of the tool's cutting part.
ISSN:0141-6359
1873-2372
DOI:10.1016/j.precisioneng.2012.09.002