• 한국기계가공학회지
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• 제15권3호
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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.

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 1993년도 춘계학술대회 논문집
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• pp.102-107
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• 1993

The achievable machining accuracy depends upon the level of the micro-engineering, and the dimensional tolerances in the order of 10nm and surface roughness in the order of 1nm are the accuracytargets to be achieved today. Suchrequirements cannot be satisfiedby the conventional machining processes. Single point diamond turning is one of the new techniques which can produce the parts with such accuracy limits. The aims of this thesis are to get a better understanding of the complex cutting process with a diamond tool and, consequently, to develope a predicting modelof a turned surface profile. In order to predict the turned surface profile, a numerical model has been developed. By means of this model, the influences of the cutting conditions, the material properties of the workpiece, the geometry of the cutting tool and the dynamic behaviour of the lathe and their influences via the cutting forces upon the surface roughness have been estimated.

• 한국공작기계학회논문집
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• 제12권6호
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• pp.44-49
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• 2003

To obtain the surface roughness with range from 10nm to 1nm we need the study of ultra-precision machine, cutting condition, and materials. In this paper, the optimal cutting conditions for getting mirror surface of aluminum alloy have been examined experimentally by using ultra-precision turning machine and sing1e crystal diamond tool. In generally, the cutting conditions such as feed rate and depth of cut have effect on the surface roughness in ultra-precision turning. The result of surface roughness was measured by the ZYGO New View 200. Therefore, The surface roughness and cutting conditions has been clarified. The smooth surface of aluminum alloy less than 1nm RMS, 1nm Rmax can be obtained by the ultra-precision cutting.

• 한국정밀공학회지
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• 제12권6호
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• pp.20-26
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• 1995

With the recent development of light and high efficient automobiles and aircraft, demand of the A1-Si alloy is rapidly increasing. However, there is an inclination that as the content of silicon increases it becomes more difficult to machine. Accordingly, the present study intends to analyse and study the cutting resistance and surface roughness of A1-Si alloy with Si contents of 8%, 12%, 17%, and 20%. The A1-Si alloy specimens were turned by a poly- crystalline diamond tool under selected cutting conditions, and results are here described and discussed.

• 한국정밀공학회지
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• 제23권1호
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• pp.80-88
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• 2006

In this study, unsintered and presintered low purity alumina ceramics were machined with various tools to clarify the machinability and the optimum cutting conditions. The main conclusions obtained were as fellows. Machined with ceramic tool, the ceramics presintered at the temperature range of $1000\~1100^{\circ}C$ showed the best machinability due to the adhesion formed in weared surface within a certain cutting speed range. In the above combination and conditions, the ceramic tool showed the highest productivity through all experiments. The life of CBN tool was longer in machining of the ceramics presintered at $1000^{\circ}C$ than in the case of that presintered at $600^{\circ}C$, but the diamond tool showed adverse tendency. In machining of the ceramics presintered at $1000^{\circ}C$, the ceramic tool exhibits the longest tool life in high speed, the tool lives became extremely worse in the order of CBN tool and diamond tool. However, in the case of the ceramics presintered at $600^{\circ}C$, the diamond tool shows the longest tool life, the tool lives was much worse in the order of CBN tool and ceramic tool.

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2004년도 추계학술대회 논문집
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• pp.818-821
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• 2004

With a rapid development in the area of micro and ultra precision technology, the micro surface machining of small size parts are explosively increased. Especially, to improve efficiency of various beams in lens and reflector, non-rotational symmetric form and several mm level heights changeable surface can be machined at a time. These geometric complex 3D surface cannot be machined by general short stroke FTS. The long stroke FTS if firmly needed to move directly several mm and have nm level positioning accuracy for the complex surface form. The long stroke FTS used linear motors to drive moving unit long and fine, aero static bearings to decrease friction and moving errors in guide way, optical linear scale with nm level resolution to measure position of FTS. Furthermore, to increase the performance of acceleration of FTS, the light material, such as AL is used for the structure and the high stiffness box type structure is selected. In this paper, the genetic algorithm approach is described to determine a set of design parameters for auto tuning. The authors have attempted to model the design problem with the objective of minimizing the error, such as variable pattern change. This method can give the better alternative than existing other method.

• 천문학회보
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• 제41권2호
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• pp.65.1-65.1
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• 2016

일반적으로 천체 망원경에 사용되는 반사경은 유리 소재로 제작된다. 그러나 알루미늄을 반사경 소재로 사용하면 광기계구조물과 반사경의 열팽창계수가 유사하여 치수 안정성이 높다는 장점이 있다. 뿐만 아니라 다이아몬드 선삭 기계 (Diamond Turning Machine, DTM)를 이용할 수 있기 때문에 반사경의 가공 시간 및 제작 비용을 절감할 수 있다. 본 연구에서는 알루미늄 합금 (Al6061-T6)을 소재로 구경 150 mm, 초점거리 600 mm인 포물면 반사경을 제작하였다. 우선 DTM을 이용해 알루미늄을 가공하였는데, 이 때 표면 조도와 관련된 고주파 오차 (High Frequency Error, HFE)가 발생한다. 따라서 표면 조도를 향상시키기 위한 추가적인 공정으로써 가공된 표면을 도금한 후 열처리를 하고, 폴리싱과 이중 코팅을 거쳐서 최종 반사경을 얻었다. 각 단계별 공정을 마친 후에는 접촉식 및 광학식 형상 측정 방법으로 표면 측정을 실시하여 이를 분석하였다. 본 발표에서는 각 공정 단계에서의 반사경 표면 분석 결과를 설명할 것이며, 제작된 알루미늄 반사경과 기존의 유리 소재의 반사경을 성능 면에서 비교할 것이다.

• 한국광학회지
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• 제15권3호
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• pp.258-262
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• 2004

검출기의 분광감응도 표준으로부터 출발하여 SI 기본 단위의 하나인 칸델라(candela)눈금의 불확도는 복사계 개구의 면적 측정 불확도에 의해서 제한을 받는다. 칸델라 눈금을 새로 실현하기 위하여 다이아몬드 선삭가공기를 사용하여 개구의 가장자리가 칼날과 같도록 가공하였다. 이 개구를 디지털 되먹임 알고리듬을 채용한 x-y 이송대에 설치한 후, 출력이 안정화된 레이저 광선을 빔 허리가 5 $\mu\textrm{m}$ 이하가 되도록 집속시키고, 이송대를 이동하면서 개구의 가장자리 좌표를 칼날주사 방법으로 검출하였다. 이 좌표들을 지나는 최적의 타원을 최소 제곱법으로 결정하여 개구의 면적으로 구하였다. 측정 불확도를 분석한 결과 제작한 장치의 면적 측정의 상대 측정 표준 불확도(k=1)는 8${\times}$$10^{-5}$이다.

• Design & Manufacturing
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• 제14권1호
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• pp.63-68
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• 2020

Ultra-high brightness and thin displays need to optical micro-patterns which can uniformly diffuse the lights and low loss. The micro random patterns have characteristics to rise the optical efficiency such as light extraction, uniform diffusion. For this reason, various fabrication processes are studied for random patterns. In this study, the micro random patterns were machined by diamond turning which used a controlled cutting tool path with random cutting depth. The machined patterns had random shape and directionality along the circumferential direction. The average width and length of machined random pattern according to rotation radius were 40.13㎛~55.51㎛ and 37.25㎛~59.49㎛, and these results were compared with the designed result. Also, the machining error according to rotation radius in diamond turning using randomly controlled cutting depth was discussed.

• 한국정밀공학회지
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• 제30권12호
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• pp.1303-1312
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• 2013

We report an ultra-precision lathe designed to machine micron-scale features on a large-area roll mold. The lathe can machine rolls up to 600 mm in diameter and 2,500 mm in length. All axes use hydrostatic oil bearings to exploit the high-precision, stiffness, and damping characteristics. The headstock spindle and rotary tooling table are driven by frameless direct drive motors, while coreless linear motors are used for the two linear axes. Finite element method modeling reveals that the effects of structural deformation on the machining accuracy are less than $1{\mu}m$. The results of thermal testing show that the maximum temperature rise at the spindle outer surface is approximately $0.5^{\circ}C$. Finally, performance evaluations of the error motion, micro-positioning capability, and fine-pitch machining demonstrate that the lathe is capable of producing optical-quality surfaces with micron-scale patterns with feature sizes as small as $20{\mu}m$ on a large-area roll mold.