• Title/Summary/Keyword: Ultra Precision Machining

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Ultra Miniature Eddy Current Sensor with 3 Axes for On-Machine-Measurement (기상측정용 3축 구조의 초소형 와전류 센서 개발 및 평가)

  • Kim, Sun-Ho
    • Journal of the Korean Society for Precision Engineering
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    • v.27 no.3
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    • pp.27-32
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    • 2010
  • The OMM(On-Machine-Measurement) system has many advantages compare to conventional measurement in the way the time and cost. But, the sensor suitable to OMM system is restrictive use. Touch trigger probe sensor has long time for measurement and non-contact sensor has directional demerit. Because the long mechanical parts such as gear and lead screw for pump, injector and machine tools has big and heavy, unclamp and transferring for measurement in machining process is very difficult. This paper presents a development of ultra miniature eddy current displacement sensor with 3 axes for On-Machine-Measurement system. The accuracy of the sensor is experimentally proved in the grinding machine. In experimental results, the accuracy has under ${\pm}5\;{\mu}m$.

Development of diamond wheel for ultra precision and high performance grinding of difficult-to-materials (난삭재의 초정밀.고능률 연삭가공을 위한 다이아몬드숫돌의 개발)

  • Heo, Seong-Jung
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.21 no.12
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    • pp.2172-2178
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    • 1997
  • Development of diamond wheel with fine grains and multi-pore structures were newely attempted. Wheels, that are employed for ultra precision and high performance grinding of difficult-to materials such as tungsten carbide alloy using tool and die materials, must have both performances to remove tool marks efficiently and to contact elastically with curved surfaces. Diamond grains were bonded firmly by a melamine resin to prevent the decrease of machining efficiency due to grain sinking within the bond materials. Also, highly foamed structures were developed to increase the flexibility of the wheel, and to induce active self-sharpening by increasing contact pressure between the wheel and work surfaces. In this paper, melamine-bonded diamond wheels are trial manufactured, then the forming method of wheels are suggested, and the grinding characteristics of wheels are also illustrated.

Ultra Precision Machining of Injection Mold Core for Asymmetric Aspheric Lens using 6:4 Brass (비대칭비구면 렌즈 사출 코어용 6:4 황동 초정밀 형상 가공)

  • Lee, Dong-Kil;Gu, Hal-Bon;Kim, Jeong-Ho
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2007.06a
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    • pp.427-427
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    • 2007
  • The global applications of aspherics surfaces will expand rapidly on the electronics, optical components, communications, aerospace, defense, and medical optics devices etc. Especially, Asymmetric aspheric prism lens is one of the important parts in HMD(Head Mounted Display) because it affects dominantly on the optical performance of HMD. The mold core is the most important device to produce the plastic lenses by injection molding method. In this study, the mold cores for asymmetric aspheric prism lens were processed using fly-cutting method which is kind of the ultra precision processing and form accuracy and surface roughness of the cores were measured.

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Machining of Corner-cube Pattern on Accumulated Cu-Thin Plates (적층된 구리 박판의 코너 큐브 패턴의 가공)

  • Lee, Joon-Yong;Bae, Chan-Yeol;Kim, Chang-Ho
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.15 no.3
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    • pp.109-114
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    • 2016
  • This study presents the optimal hardness range for a coated layer of a workpiece when the diamond tool cuts the corner-cube pattern on the coated plates using an ultra-precision diamond-turning machine. Two kinds of coated plates, which have the hardness range of 211~328 Vickers hardness, are used on the first experiments. The form accuracy for the corner-cube pattern could be achieved through the following experiments using the accumulated thin copper plates in second experiments, having optimal 265~275 Vickers hardness based on the basic first experiments without tool wear. When the number of machining adjustments was increased to seven times, having machining depth was reduced successively in second experiment, a fine surface could be achieved without tool wear.

Prediction of Surface Roughness on the PCD Tool Turned Aluminum Alloys by using Regression Analysis (Al합금 PCD 선산가공에서 회귀분석에 의한 표면거칠기 예측)

  • Lee, Sun-Woo;Lee, Dong-Ju
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.11 no.3
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    • pp.41-47
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    • 2012
  • Surface roughness is widely used as an index for processing degree of accuracy. Recently, regression analysis to predict the machining results are actively used to characterize a cutting operations. In the past, diamond machining had been used for ultra precision cutting operation, but now industrial diamond tools like PCD(Polycrystaline Diamond) has been widely used in ultraprecision machining of nonferrous metals. In this study, the authors focus on the effect of PCD tool property on the surface roughness of different types of aluminum alloy after cutting process by CNC operated lathe. Based on the regression analysis approach on a surface roughness data obtained by experiment, predictive analysis of surface roughness is effective to achieve better surface quality.

A Prediction of Surface Roughness on the PCD Tool Turned Al5083 by using Regression Analysis (Al5083 PCD 선삭가공에서 회귀분석에 의한 표면거칠기 예측)

  • Lee, Sun-Woo;Lee, Dong-Ju
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.11 no.6
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    • pp.69-74
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    • 2012
  • Surface roughness is widely used as an index for processing degree of accuracy. Recently, regression analysis to predict the machining results are actively used to characterize a cutting operations. In the past, diamond machining had been used for ultra precision cutting operation, but now industrial diamond tools like PCD(Polycrystalline Diamond) have been widely used in ultraprecision machining of nonferrous metals. In this study, the authors focus on the effect of PCD tool property on the surface roughness of Al5083 aluminum alloy after cutting process by CNC operated lathe. Based on the regression analysis approach on a surface roughness data obtained by experiment, predictive analysis of surface roughness is effective to achieve better surface quality.

Deformation analysis of Tool and Tool holder for Micromachining by FEM (FEM을 이용한 Micromachining용 Tool 및 Tool holder의 변형해석)

  • Min, Kyung-Tak;Jang, Ho-Su
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.9 no.1
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    • pp.87-92
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    • 2010
  • Micromachining technology using a ultra-precision micromachining system is widely applied in the fields of optics, biotechnology and analytical chemistry, etc. specially in microfabrication of fresnel lens, light guide panels of TFT-LED and PDP ribs with micro-patterns, machining errors have an effect on the performance of those products. The deflection of tool and tool holder is known to be one of the very important factors that is due to machining errors in micromachining. The deflections of diamond tool and tool holder used in micro-grooving are analysed by FEM. We analysed by FEM. With an linearity valuation of FEM, deflection of tool and tool holder is calculated by using the data of cutting force which is acquired from micro-V groove machining experiments in micromachining system.

Mechanical Characteristic Evaluation of Proper Material for Ultra-fine Dies (초소형 금형소재의 기계적 특성평가)

  • KANG Jae-hoon;LEE Hyun-yong;LEE Nak-kyu
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2005.05a
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    • pp.473-476
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    • 2005
  • Today's manufacturing industry is facing challenges from advanced difficult-to-machine materials (WC-Co alloys, ceramics, and composites), stringent design requirements (high precision, complex shapes, and high surface quality), and machining costs. Advanced materials play an increasingly important role in modem manufacturing industries, especially, in aircraft, automobile, tool, die and mold making industries. The greatly-improved thermal, chemical, and mechanical properties of the material (such as improved strength, heat resistance, wear resistance, and corrosion resistance), while having yielded enormous economic benefits to manufacturing industries through improved product performance and product design, are making traditional machining processes unable to machine them or unable to machine them economically. In this paper, mechanical characteristic evaluation test of fine powder type WC-Co alloy was accomplished to obtain clear data for miniaturized special die parts machining with high reliability and high quality.

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Design and Development of Asymmetry Glass Array Lens (비축대칭 Glass Array Lens의 설계 및 개발)

  • Park, Soon-Sub;Hwang, Yeon;Lee, Ki-Young;Kim, Geon-Hee;Won, Jong-Ho
    • Journal of the Korean Society for Precision Engineering
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    • v.25 no.12
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    • pp.39-46
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    • 2008
  • Asymmetric glass lens core for portable projection optic system was designed and simulated. And it was machined by newly developed non-rotational ultra precision grinding method. With the designed lens data which optimized for multi-collimation, we generated the we core surface data. Mold pressing conditions analyzed by FEM. In the machining process, ground profile errors were compensated based on measured data, minimized feed rate and depth of cut. The deviations of machined core profile were acceptable level for glass mold press. Mold pressed glass array lens was coated with $SiO_2\;and\;Ta_2O_5$ for anti-reflection.

Development and Evaluation of Ultra High-Speed Tapping Machine (초고속 태핑머신 개발 및 평가)

  • 김선호;김동훈;김선민;이돈진;이선규;안중환;이상규
    • Journal of the Korean Society for Precision Engineering
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    • v.19 no.11
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    • pp.221-227
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    • 2002
  • Tapping is a machining process that makes a female screw on parts to be assembly together. Recently, as the number of small and compact products increases the radius of tap as small as 1 mm is not unusual and more accurate tapping is needed. In complying with those needs, some high-speed tapping machines with synchronizing function have been developed. This paper describes the development of an ultra high-speed tapping machine up to 10,000rpm. The key factors in the tapping speed are the acceleration/deceleration and the synchronizing errors between spindle motor and fred motor. To minimize the acceleration/deceleration time, a low inertia spindle with a synchronous built-in servo motor was developed. To minimize the synchronizing errors, the tapping cycle algorithm was optimized on an open architecture CNC. The developed tapping machine has the acceleration/deceleration time of 0.13sec/10,000rpm for rigid tapping and the synchronizing error below 4.4%. The cycle time for tapping a female screw of M3 and depth 2 times diameter was 0.55sec.