• 한국산학기술학회논문지
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• 제18권4호
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• pp.50-57
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• 2017

본 사출 금형을 통해 제품 생산 시 사출 금형 내에서 제품 형상을 형성하는 코어는 금형 내부에 틀의 형태로 가공되어 설치되며 이때 부분적인 코어의 형상을 핀에 가공하여 설치하는 부품을 코어 핀이라 한다. 이러한 사출 코어 용 코어 핀은 제품의 소형화 집적화에 따라 그 크기가 마이크로의 크기로 작아지고 있다. 하지만 이를 가공 시 기존의 센터리스 연삭 장치로는 마이크로 사이즈의 피삭재를 고정하여 밀착 시켜주는 장치의 부재로 인해 진동이 발생한다. 이러한 이유로 마이크로 크기의 직경을 가지는 코어 핀의 경우 가공 시 진동에 의해 변형 발생으로 가공 불량률이 매우 높다. 따라서 본 논문에서는 마이크로 크기의 코어 핀을 가공하기 위해 기존의 평면 연삭기에 설치하여 사용이 가능한 소형의 연삭 시스템을 개발 하였다. 이를 이용하여 코어 핀에 대한 연삭 실험을 진행하였으며 표면 거칠기, 진원도, 원통도의 측정을 통해 성능을 검증하였다.

• 한국정밀공학회지
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• 제30권11호
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• pp.1129-1137
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• 2013

We report a centerless grinding machine which can perform multi-function with 600 mm wide grinding wheels. By increasing manufacturing area, long workpiece such as camshaft and steering shaft, is allowed to grind more quickly, compared with cylindrical grinding system. In this paper, the design of centerless grinding machine puts emphasis on symmetry to exploit the thermal stability. Results of finite element analysis shows that the difference of the structural deflection in the front and rear guideways is less than $1.5{\mu}m$ due to symmetric design. The difference is less than $3.0{\mu}m$, even though the thermal deformation is considered. According to the performance evaluation, the radial error motion of the G/W spindle, which is measured by applying Donaldson Ball Reversal, is about 1.1${\mu}m$. The yaw error of the G/W slide is improved from 2.1 arcsec to 0.5 arcsec by readjusting the slide preload and ball screw.

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2005년도 춘계학술대회 논문집
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• pp.108-113
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• 2005

In this study, rotary type diamond dressing system for ultra-precision centerless grinding for ferrule was developed at the first time and experiments were conducted with AE sensor and hall sensor system to verify the optimum dressing condition for ultra-precision centerless grinding for ferrule. The correlations with the condition of dressing are evaluated by AE signal analysis with root mean square (RMS) and frequency analysis. And current signals from hall sensor are also studied as a factor of dressing optimum condition selection. Dressing process was conducted to investigate the effects of depth of cut, rotating speed, and the number of overlap to select the optimum condition of rotary dressing system of ultra-precision centerless grinding machine for ferrule fabrication. In order to verify the optimum condition of dressing, AE and current signals were compared with the surface quality of dressing wheel and grinding wheel for ultra-precision ferrule grinding. All of these experiments were completed by Taguchi Methodology to reduce experimental time. Hence, the optimum condition of rotary dressing system for ultra-precision centerless grinding for ferrule fabrication can be selected following to the experiment result from signals of AE and hall sensor.

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2000년도 추계학술대회 논문집
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• pp.880-883
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• 2000

Temperature generated in the workpiece during grinding process can cause thermal damages. Therefore it is important to understand surface temperature generated during grinding process. In this paper, a theoretical and experimental investigation were performed for the grinding temperature. Grinding experiments were performed in machining center using vitrified bonded CBN cup-type wheel. The surface temperature was measured using thermocouple and calculated through a model of the partition of energy between wheel and workpiece. The residual stress and hardness of ground surface were measured. The experimental results indicate that the surface temperature was in good agreement with theoretical ones. Residual stress and hardness of ground surface were more affected by the change of table speed than the depth of cut.