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Research on ultra-precision fine-pattern machining through single crystal diamond tool fabrication technology  

Jung, Sung-Taek (Department of Mechanical Convergence Engineering, Induk University)
Song, Ki-Hyeong (Korea Institute of Industrial Technology (KITECH), IT Converged Process R&D Group)
Choi, Young-Jae (Korea Institute of Industrial Technology (KITECH), IT Converged Process R&D Group)
Baek, Seung-Yub (Department of Mechanical Convergence Engineering, Induk University)
Publication Information
Design & Manufacturing / v.14, no.3, 2020 , pp. 63-70 More about this Journal
Abstract
As the consumer market in the VR(virtual reality) and the head-up display industry grows, the demand for 5-axis machines and grooving machines using on a ultra-precision machining increasing. In this paper, ultra-precision diamond tools satisfying the cutting edge width of 500 nm were developed through the process research of a focused ion beam. The material used in the experiment was a single-crystal diamond tool (SCD), and the equipment for machining the SCD used a focused ion beam. In order to reduce the influence of the Gaussian beam emitted from the focused ion beam, the lift-off process technology used in the semiconductor process was used. 2.9 ㎛ of Pt was coated on the surface of the diamond tool. The sub-micron tool with a cutting edge of 492.19 nm was manufactured through focused ion beam machining technology. Toshiba ULG-100C(H3) equipment was used to process fine-pattern using the manufactured ultra-precision diamond tool. The ultra-precision machining experiment was conducted according to the machining direction, and fine burrs were generated in the pattern in the forward direction. However, no burr occurred during reverse machining. The width of the processed pattern was 480 nm and the price of the pitch was confirmed to be 1 ㎛ As a result of machining.
Keywords
Diamond Tool Geometry; Focused Ion Beam; Cutting Edge Width; Ultra-Precision Machining; DOE;
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Times Cited By KSCI : 2  (Citation Analysis)
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