• Journal of the Korean Society for Precision Engineering
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• v.15 no.7
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• pp.61-68
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• 1998

The form accuracy of parts has become an important parameter. Therefore, dimensional tolerance and geometric tolerance are used in the design stage to satisfy required quality and functions of parts. But the informations on the machining conditions, which can satisfy the assigned geometric tolerance in design, are insufficient. The objectives of this research are to study the effects of the grinding parameters such as traverse speed, work speed, depth of cut, and dwell time on the after-ground workpiece shape, and to find out the major parameters among them. The results are as follows, The effects of work speed and depth of cut on workpiece shape are negligible compared with the effect of traverse speed. There is an optimal dwell time depending on the traverse speed. The optimal dwell time is decreasing as the traverse speed is increased.

• 기계와재료
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• v.24 no.2
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• pp.96-109
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• 2012

채터진동은 공작기계에서 가공중에 소재와 공구사이에 나타나는 급격한 상대진동을 말한다. 이러한 진동은 가공 소재 품질에 심각한 영향을 미치는 요소일 뿐만 아니라 가공툴과 기계에 손상을 유발시키는 인자이기도 하다. 본 연구는 공작기계의 구동 중 발생되는 채터진동을 실시간으로 감지하여 공구의 회전속도와 이송 속도를 제어하여 자율보정함으로써 보다 빨리 채터진동의 영향을 보상함을 물론 보다 정밀한 가공물을 생산할 수 있는 채터진동 감지 및 보정에 관한 것이다. 실시간 처리를 위하여 본 연구에서의 공작기계의 채터진동 보상장치는 공작기계에 임베디드 형태의 디바이스로 개발되었으며, 구성은 공작기계의 채터진동을 감지하는 센서와 센서로부터 감지된 채터진동에 따라 보상값을 예측하여 산출하는 채터보상기를 포함하여 공작기계의 CNC제어기의 연계 구성됨을 특징으로 한다.

• Journal of the Korean Society for Precision Engineering
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• v.12 no.6
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• pp.5-12
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• 1995

전술한 바와 같이 공작기계 기술은 고정밀화, 고속화 고성능화의 추세로 발전해 나가고 있다. 고속 절삭이라고 하면 직감적으로 주축이 수만 rpm으로 회전하면서 어떤 재료를 가공할 수 있는 MC의 고속 주축을 생각하게 된다. 그러나, 이와 같은 고속절삭은 A1이나 Plastic등 재료를 가공 하는데 국한되고 있으며, 철계금속의 고속절삭이란 정의는 절삭속도를 수백m/min의 초고속 가공 뿐만 아니라 '가공시간의 단축'도 고속 가공의 정의에 포함시켜서 이해해야되며 가공물의 소재가 일반 강철, 열처리된 강철, Ceramics재료, 난삭재료 등의 고속절삭을 위해 개발된 Tooling기술에 대한 검토 필요성이 급속히 증가하고 있다.

• Transactions of the Korean Society of Mechanical Engineers A
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• v.37 no.3
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• pp.319-324
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• 2013

In this study, an EP (electro-polishing)-MAP (magnetic abrasive polishing) hybrid process was developed as a precision finishing process. To evaluate the characteristics of this EP-MAP hybrid process, a series of experiments were carried out using various working gaps, current densities, and electrolyte concentrations. As a result, $NaNO_3$ was found to be very suitable as the electrolyte of the hybrid process because there was no electrochemical reaction with the CNT-Co composite. Moreover, an increase in the magnetic flux density affected the liquidity of the electrolyte and prevented it from flowing into the CNT-Co composite powder. For that reason, the lower liquidity of the electrolyte increased the thermal energy on the surface of the workpiece.

• Transactions of the Korean Society of Mechanical Engineers A
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• v.41 no.4
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• pp.251-255
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• 2017

Burr generation is inevitable during the machining of a micro-pattern, and it is difficult to distinguish between the pattern and burr because they have a very small dimensions. In this study, a micro-pattern with a pitch of $60{\mu}m$and height of $1{\mu}m$ was fabricated on a cylindrical surface using a turning machine. The structure of a burr and its generation mechanism were determined, and a magnetic abrasive deburring process was used to improve the accuracy of the pattern. As a result, when fabricating a micro-pattern, it was shown that the direction of the burr was determined by the feed direction of the tool. The measured pattern height was $1.018{\mu}m$ when the magnetic flux density and spindle speed were respectively 40 mT and 1600 rpm, respectively, during magnetic abrasive deburring, which were determined to be the optimal conditions for processing.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.19 no.10
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• pp.121-127
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• 2018

A system for diagnosing surface defects of long and large pipe inner overlay welds, 1m in diameter and 6m in length, was developed using a Liquid Penetrant Test (PT). First, CATIA was used to model all major units and PT machines in 3-dimensions. They were used for structural strength analysis and strain analysis, and to check the motion interference phenomenon of each unit to produce two-dimensional production drawings. Structural strength analysis and deformation analysis using the ANSYS results in a maximum equivalent stress of 44.901 MPa, which is less than the yield tensile strength of SS400 (200 MPa), a material of the PT Machine. An examination of the performance of the developed equipment revealed a maximum travel speed of 7.2 m/min., maximum rotational speed of 9 rpm, repeatable position accuracy of 1.2 mm, and inspection speed of $1.65m^2/min$. The results of the automatic PT-inspection system developed to check for surface defects, such as cracks, porosity, and undercut, were in accordance with the method of ASME SEC. V&VIII. In addition, the results of corrosion testing of the overlay weld layer in accordance with the ferric chloride fitting test by the method of ASME G48-11 indicated that the weight loss was $0.3g/m^2$, and met the specifications. Furthermore, the chemical composition of the overlay welds was analyzed according to the method described in ASTM A375-14, and all components met the specifications.

• Journal of Astronomy and Space Sciences
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• v.21 no.2
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• pp.141-152
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• 2004

Optics fabrication process for precision space optical parts includes bound abrasive grinding, loose abrasive lapping and polishing. The traditional bound abrasive grinding with bronze bond cupped diamond wheel leaves the machine marks of about $20{mu}m$ rms in height and the subsurface damage of about 1 ${mu}m$ rms in height to be removed by subsequent loose abrasive lapping. We explored an efficient quantitative control of precision CNC grinding. The machining parameters such as grain size, work-piece rotation speed and feed rate were altered while grinding the work-piece surfaces of 20-100 mm in diameter. The input grinding variables and the resulting surface quality data were used to build grinding prediction models using empirical and multi-variable regression analysis. The effectiveness of such grinding prediction models was then examined by running a series of precision CNC grinding operation with a set of controlled input variables and predicted output surface quality indicators. The experiment achieved the predictability down to ${pm}20$ nm in height and the surface roughness down to 36 nm in height. This study contributed to improvement of the process efficiency reaching directly the polishing and figuring process without the need for the loose abrasive lapping stage.