• Transactions of the Korean Society of Mechanical Engineers
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• v.10 no.3
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• pp.376-382
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• 1986

Adaptive control constraint (ACC) is applied to a turning process to keep the cutting force constant while the cutting conditions vary. In this system, a given reference force is compared with the measured cutting force and difference is input to the controller to adjust the feed. Since it is found that the effective ACC loop gain depends on both depth-of-cut and spindle speed and thereby influence the system stability, a simple computer algorithm is built in the controller to maintain the stability of the whole system by on-line estimation of the process parameters during cutting.

• Proceedings of the Korean Society of Precision Engineering Conference
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• 1994.04a
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• pp.438-442
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• 1994

절삭가공에서 공구의 마멸은 생산의 최적화에 영향을 주는 가장 중요한 요소중의 하나라고할 수 있다. 따라서 생산시스템이 자동화되고 유연성 및 생산성이 증대되면서, 공구의 수명이 끝났을 때의 공구교환을 위한 최적 의사 결정전략(Decision making stratagy)은 그 중요성이 점차 커지고 있다. 한편, 공구는 마멸의 진행에 따라 그 수명을 예측하여 교환해 주는 것이 바람직하다. 그러나 공구의 마멸은 여러가지 요인들의 복합적 작용에의해 발생하는 현상 이므로 그것을 정확히 예측한다는 것은 많은 어려움이 있다. 본 연구에서는 절삭력을 이용하여 공구의 여유면마멸 (Flank wear)과 경사면마멸을 감지하고자 한다 먼저 절삭력을 정적인 성분(Static component)과 동적인 성분(Dynamic component)로 구분하여 공구의 마멸을 감지하는데 이용하였다. 절삭력의 정적인 성분은 절삭조건의 변화에 대해 정규 화된(Normalized) 절삭력으로 모델링하여 공구의 여유면 마멸을 감지 하였다. 또한 공구의 경사면마멸이 발생한 경우에는 절삭력의 동적인 성분이 크게 변화함을 알 수 있었다.

• Proceedings of the Korean Society of Precision Engineering Conference
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• 1993.04b
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• pp.76-80
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• 1993

절삭가공중에서 DRILL가공은 일반기계가공 공정중에 23 .approx. 25% 정도의 비율을 점우하고 있는 중요한 위치의 작업의 하나이고 또한 요구되는 정밀도를 만족하기 어렵고, 높은 생산성이 요구되는 가공법이다. 기계가공의 무인화, 자동화, 고능률화 및 정도향상 이라는 측면에서 더욱 이에 대응할 수 있는 가공방법 즉 공작물, 공구재료, 공구형상 및 절삭조건등에 걸쳐 광범위하게 연구개발 되어 져 가고 있다. 이 작업중 특히 곤란한 것은 깊은 구멍가공(DEEP HOLE DRILL)으로서 깊이/직경의 비가 극히 높은(약 5배이상) 절삭가공 의 경우에는 CHIP의 배출, 절삭날부의 윤활, 공구의 진동등의 문제로 인하여 일반적인 절삭가공 공법으로는 가공이 여려운 경우가 많다. 본 연구는 Solid BTA Drill(Mlti-tip Drill Head with Brazed Tips)에 의하여 가공에요구되는 절삭성 분석과 절삭조건의 변화에 따른 공작물의 가공정도 즉, 가공구멍의 직경의 변화, 표면거칠기. 진원도의 변화상태 및 공구의 마모된 현상에 대하여 실험조사하여 공구에 제한된 수명을 연장하고, 제품에 요구되는 품질수준을 확보하는가에 대하여 본 실험을 통하여 분석하도록 하였다.

• Proceedings of the Korean Society of Precision Engineering Conference
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• 1995.04b
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• pp.131-136
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• 1995

최근 기계가공이 CAD/CAM화되고 가공기술이 고정밀화, 고능률화 되어감에 따라 절삭공정에 대한 정확한 모델이 필요하다. 절삭공정에서 공작물의 정밀도나 가공능률에가장 큰 영향을 미치는 것이 절삭력과 표면거칠기로서 이의 해석을 위해서 절삭력 모델과 표면거칠기 모델이 사용되고 있다. 본 연구에서는 정면밀링가공에서 인서 트 초기오차와 날의 형상을 고려하여보다 쉬운 표면조도 모델을 세우고, 절삭과정을 진동계로 모델링하여 3차 원 동적 표면형상을 예측하고자 한다. 도한 본 모델을 이용하여 정면밀링작업에서 최적의 절삭조건을 찾고자 한다. 밀링가공에서 표면조도는 날딩 이송과 함께 인서트 초기위치오차에 의하여크게 좌우 되기 때문에 최적 의 이송을 찾아서 알맞은 표면조도를 얻고 절삭효율을 높이기는 힘들다. 따라서 본 연구에서 개발한 표면조도 모델을 이용하여 최적의 이송을 찾아서 목적에 합당한 표면조도를 얻고, 또한 절삭효율도 높일 수 있는 방법을 제시하고자 한다.

• Transactions of the Korean Society of Mechanical Engineers
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• v.16 no.12
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• pp.2268-2278
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• 1992

The vibratory modal for the face milling operation is assumed as a multi degrees of freedom system. The parameters of the system are determined based on the cutting experiment. From the relative displacements of this system the dynamic cutting forces were derived and simulated by the double modulation principle. The simulated cutting forces and measured cutting forces have a good agreement in time and frequency domains.

• Proceedings of the Korean Society of Precision Engineering Conference
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• 2003.10a
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• pp.91-91
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• 2003

• Transactions of the Korean Society of Mechanical Engineers A
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• v.39 no.10
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• pp.1069-1077
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• 2015

In tunnel excavation using blast, the wire saw rock cutting method generates a discontinuity perimeter around the center cut, and thus prevents blast vibration propagation to reduce vibration and noise. Therefore, the method is expected to be easy to use and economical compared with other methods. In this paper, the cutting mechanism of wire saw in tunnel excavation is investigated. A model describing the changes in cutting depth and wire saw shape inside a rock during cutting is established and validated for this purpose. Through a simulation using the model, the important characteristics of wire saw cut are investigated, and the influences of cutting conditions, such as wire saw tension, wire saw speed, feed speed, depth, and diameter of boring, on cutting performance are also examined. A method to improve the cutting performance is proposed based on the results.

• Clean Technology
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• v.12 no.3
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• pp.182-189
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• 2006

In this study, high speed machining is evaluated with regard to economical and environmental effects. Considering environmental loads, machining costs are analyzed with the mathematical models of machining economics and cutting fluid loss. Data from the tool life experiments of high speed milling and turning are used for the analysis. The analysis of high speed milling shows that the machining cost decreases as increasing the cutting speed. In turning process, the cooling method using cutting fluid shows the minimum machining cost. Considering both machining and environmental costs, cooling method using cold air is superior to other methods.

• Transactions of the Korean Society of Mechanical Engineers A
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• v.37 no.10
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• pp.1269-1278
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• 2013

The cutting area changes periodically in the end-milling process because of its form generation mechanism. In this study, the effects of the cutting area on end-milled side walls are studied by developing a cutting area model that simulates the area formed by engagement between a workpiece and a cutting edge of the end mill. To do this, the straightness profile of the side wall in the axial direction is investigated. Models for estimating the cutting area and the transition point, where the slope of the straightness profile changes suddenly, are verified from real end-milling experiments under various radial and axial depth of cut conditions. Through this study, it is confirmed that the final end-milled side wall is generated in the regions where cutting areas are constant and decreasing in the down-cut. Similarly, in stable up-cut, it is also generated in the regions where cutting areas are increasing and constant. It is found that the transition point appears when the region changes.

• Journal of Korean Tunnelling and Underground Space Association
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• v.20 no.1
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• pp.161-182
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• 2018

We carried out a series of linear cutting machine tests to assess the cutting performance of a pick cutter in sedimentary rock. The specimens were Linyi sandstone from China and Concrete (rock-like material, conglomerate). Using the small scaled LCM system, we estimated the cutter force and specific energy under different cutting conditions. The cutter forces (cutting and normal) increased with penetration depth and cutter spacing in two rock types, and it was affected by the strength of specimens. On the other hand, the ratio of the peak cutter force to the mean cutter force was influenced by cutting characteristic and composition of rock rather than rock strength. The cutting coefficient was affected by the friction characteristic between rock and pick cutter rather than the cutting conditions. Therefore, the optimal cutting angle can be determined by considering of cutting coefficient and resultant force of pick cutter. The optimum cutting condition was determined from the relationship between the specific energy and cutting condition. For two specimens, the optimum s/p ratio was found to be two to four, and the specific energy decreased with the penetration depth. The result from this study can be used as background database to understand the cutting mechanism of a pick cutter, also it can be used to design for the mechanical excavator.