• Title/Summary/Keyword: 다이어몬드 공구

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Machinability in Micro-precision Machining of Ni-Plated Layer by Diamond Tool (다이어몬드 공구를 이용한 Ni 도금층의 정밀미세가공 시 절삭성)

  • Kim, Seon-Ah;Park, Dong-Sam
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.18 no.6
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    • pp.636-641
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    • 2009
  • Recently, expansion of micro-technology parts requires micro-precision machining technology. Micro-groove machining is important to fabricate micro-grating lens and many micro-parts such as microscope lens, fluidic graphite channel etc. Conventional groove fabrication methods such as etching and lithography have some problems in efficiency and surface integrity. But, mechanical micromachining methods using single crystal diamond tools can reduce these problems in chemical process. For this reason, microfabrication methods are expected to be very efficient, and widely studied. This study deals with machinability in micro-precision V-grooves machining of nickel plated layer using non-rotational single crystal diamond tool and 3-axis micro stages. Micro V-groove shape, chip formation and tool wear were investigated for the analysis of machinability of Ni plated layer.

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Cutting Chip and Surface Roughness in Micro Groove Cutting of Brass (황동의 Micro Groove 가공시 절삭칩과 표면거칠기)

  • Min, Kyung Tak;Jang, Ho Su
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.9 no.4
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    • pp.1-7
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    • 2010
  • Recently optical and electric and electronic forms in the field of ultra fine patterns has been used extensively, and techniques of the optical parts are required that can precision-machine this micro-patterns such as V or R-shaped micro-groove patterns. In this study, V and R type, shaping the way micro groove brass machining process to characterize the material feed rate and cutting depth and the V and R as a variable brother, using two kinds of diamond tools for each picture shape and surface roughness caused by conditions such as chips, processed through the analysis of effects of geometry and analysis such as precision machining.

Mechanism of Micro-V Grooving with Single Crystal Diamond Tool (단결정 다이어몬드 공구를 이용한 Micro-V 홈 가공기구)

  • Park D.S.;Seo T.I.;Kim J.K.;Seong E.J.;Han J.Y.;Lee E.S.;Cho M.W.;Choi D.S.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.06a
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    • pp.1223-1227
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    • 2005
  • Fine microgroove is the key component to fabricate micro-grating, micro-grating lens and so on. Conventional groove fabrication methods such as etching and lithography have some problems in efficiency and surface integrity. This study deals with the creation of ultra-precision micro grooves using non-rotational diamond tool and CNC machining center. The shaping type machining method proposed in the study allows to produce V-shaped grooves of $40\mu{m}$ in depth with enough dimensional accuracy and surface. For the analysis of machining characteristics in micro V-grooving, three components of cutting forces and AE signal are measured and processed. Experimental results showed that large amplitude of cutting forces and AE appeared at the beginning of every cutting path, and cutting forces had a linear relation with the cross-sectional area of uncut chip thickness. From the results of this study, proposed micro V-grooving technique could be successfully applied to forming the precise optical parts like prism patterns on light guide panel of TFT-LCD.

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A Study on Basic Research Trends of Ultra-Precision Machining Technology in Korea (우리나라 초정밀가공기술의 기초연구동향 분석 연구)

  • Park, Won-Kyoo;Lee, Dae-Myung;Hong, Won-Hwa
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.20 no.1
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    • pp.86-95
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    • 2011
  • Ultra-precision machining technology is the essential core technology in today's micro-electronics and electro-optical industries. The needs for processing systems to manufacture products to nanometer(nm) accuracy and sub-nanometer resolutions are increased recently. By using ion beam, it is possible to fabricate ultra-precision and ultra-fine products with nm accuracy and sub-nm resolution. In this paper, the basic research trends of ultra precision machining technology in domestic are surveyed, and the ways to reach to the world-leading level of basic research capabilities in the field of ultra-precision machining technology in domestic is suggested.