• Title/Summary/Keyword: cutting order

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다이아몬드 공구를 사용한 선삭 가공에서의 표면 형상 예측

  • 윤영식;이상조
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1993.04b
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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.

Prediction the surface profile in the single point diamond turning (정밀 선삭가공에서의 표먼거칠기곡선 예측)

  • Yoon, Young-Sik;Lee, Sang-Jo
    • Journal of the Korean Society for Precision Engineering
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    • v.11 no.5
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    • pp.189-198
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    • 1994
  • The achievable machining accuracy depends upon the level of the micro-engineering, and the today's accuracy targets are dimensional tolerances in the order of 10nm and surface roughness in the order of 1nm. Such requirements cannot be satisfied by the conventional machining processes. Single point diamond turning is the one of 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 model of a turned surface profile. In order to predict the turned surface profile, a numerical model has been developed. By means of this model, the influence of the operational settings-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.

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Analysis on Cutting Force of Tool in Gear Chamfering Process (기어 챔퍼링 공정에서 공구의 절삭력 해석)

  • Choi, Boo-Rim;Hwang, Kwang-Bok;Bae, Kang-Yul
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.12 no.1
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    • pp.52-62
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    • 2013
  • In order to obtain the relation between the cutting force and the process parameters in the chamfering process for the gear of a gear shaft, analysis of the process was performed with a simplified model instead of considering the whole actual 3-dimensional cutting situation produced between cutting tool and gear. The model divided the actual situation into the accumulation of hundreds of 2-dimensional layers with a small thickness in the direction of the height of gear and derived cutting force at a cutting position by accumulating each cutting force calculated in a layer. With proposed method to analyze the cutting forces in the chamfering process, it was revealed that the cutting position and size were exactly searched to calculate the cutting force in each layer. The total cutting force was the highest in the corner where the cutter encountered the gear first during the relative motion between them. The cutting forces were changed in proportion to the cutting parameters such as feed rate and trajectory.

Cutting-Pattern and Cutting Characteristics of the Reciprocating Cutter-bar of Combine Harvester(I) -Cutting Mechanism and Cutting Characteristics of the Standard Type Reciprocating Knife- (콤바인 예취장치의 절단특성에 관한 연구( I ) -절단현상 및 표준형 칼날의 절단특성-)

  • 정창주;이성범;인효석
    • Journal of Biosystems Engineering
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    • v.20 no.1
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    • pp.3-12
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    • 1995
  • This study was conducted to investigate the cutting mechanism of the reciprocating knife of combine harvester. The cutting operation of reciprocating knife was demonstrated through the cutting pattern diagram which was drawn by computer graphics. Various kinds and dimensions of standard-type reciprocating knives were analyzed by the developed program. The results are summarized as follows : (1) For the 50mm standard reciprocating knife, the bunching area and the maximum stalk-deflection were decreased rapidly according to the increase of cutting velocity ratio by 1.0 and decreased very slowly over this ratio. But, the secondary cut was occurred at ratio of 1.0 and increased rapidly over this ratio. (2) The 76mm standard knife showed better cutting mechanism than the 50mm, in two respects : the larger cutting area per one stroke and the lower revolutional speed of crank shaft for the same cutting velocity. (3) In respect to the bunching area and the secondary cutting length, the adequate height of 50mm standard reciprocating knife was 45~50mm. (4) In order to maintain the proper cutting mechanism, the adequate cutting velocity at forward speed of 0.5㎧ to 1.2m/s was from 0.4m/s to 1.2m/s for the standard knife.

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Environmentally Conscious Machining Technology of Aircraft Material(12Cr steel) (항공기소재(고크롬강)의 환경친화적 가공기술)

  • 강명창;김정석;이득우;황윤호;송준호
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2002.05a
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    • pp.1051-1054
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    • 2002
  • Environmentally conscious machining and technology have been taking more and more important position in machining process. Since cutting fluid has some impact on environment, many researches are being carried out to minimize the use of cutting fluid. It can be Increased the environmental pollution through not using coolant any more or minimizing it. In this study, the cooling effects of cutting methods using the compressed cold air, dry cutting and cutting fluid will investigate in the blade machining. In order to examine the characteristics of cutting and tool in the environmentally conscious machining, this work investigates experimentally the degree of tool wear, cutting force and characteristics of surface roughness in relation to machining conditions and cooling methods.

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The Prediction of Cutting Force and Surface Topography by Dynamic Force Model in End Milling (엔드밀 가공시 동적 절삭력 모델에 의한 절삭력 및 표면형상 예측)

  • 이기용;강명창;김정석
    • Journal of the Korean Society for Precision Engineering
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    • v.14 no.4
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    • pp.38-45
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    • 1997
  • A new dynamic model for the cutting process inb the end milling process is developed. This model, which describes the dynamic response of the end mill, the chip load geometry including tool runout, the dependence of the cutting forces on the chip load, is used to predict the dynamic cutting force during the end milling process. In order to predict accurately cutting forces and tool vibration, the model which uses instantaneous specific cutting force, inclueds both regenerative effect and penetration effect, The model is verified through comparisons of model predicted cutting force with measured cutting force obtained from machining experiments.

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A Study on the Behaviors of Acoustic Emission Signals and Cutting Forces by Flank Wear in Turing Process (선삭가공시 플랭크 마모에 따른 AE 신호와 절삭력의 거동에 관한 연구 1)

  • Cho, Jong-Rae;Won, Jong-Sik;Jung, Youn-Gyo
    • Journal of the Korean Society for Precision Engineering
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    • v.16 no.1 s.94
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    • pp.26-33
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    • 1999
  • Automatic monitoring of cutting process is one of the most important technologies for increasing the stability and the reliability of unmanned manufacturing system. In this study, basic methods which use the acoustic emission (AE) signals and cutting forces were proposed to monitor flank wear (width of flank wear) quantiatively. First, in order to detect flank wear, it was investigated that the influence of cutting conditions, that is, cutting velocity, feed and depth of cut, on AE signals (${AE_rms}$) and cutting forces. Furthermore, the relation between flank wear and the measured signals (${AE_rms}$, cutting force) was discussed.

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A Study on the Mechanical States of Machined Surface by Considering Cutting Edge (절삭날을 고려한 절삭가공면의 기계적 성질에 관한 연구)

  • Kim, Joo-Hyun;Woo, Hee-Sun;Chang, Yoon-Sang
    • Journal of the Korean Society for Precision Engineering
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    • v.16 no.7
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    • pp.188-195
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    • 1999
  • Cutting edge plays an important role in generating machined surface. In order to consider the geometric effects of the cutting edge on mechanical states, the concept of ploughing force and stagnation point was introduced which explains the generating mechanism of machined surface during cutting. The effects of edge radius and nose radius of cutting tool on the distribution of residual stresses of the machined surface having several hardness were studied. Good machined surface having high compressive residual surface stresses can be achieved if cutting tools having large edge radius and small nose radius are used for cutting work materials having high hardness with high depth of cut. The magnitude of edge radius and the hardness of work material also affected the shape of the chip in orthogonal cutting.

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자동회귀-이동평균(ARMA) 모델에의한 초음파 진동 절삭 공정의 해석

  • 최인휴;김정두
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1993.04b
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    • pp.160-165
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    • 1993
  • The cutting mechanism of ultrasonic vibration machining is characterized as two phases, that is an impact at the cutting edge and a reduction of cutting force due to non-contact interval between tool and workpiece. In this paper, in order to identfy cutting dynamics of a system with ultrasonically vibrated cutting tool, an ARMA modelling is performed on experimental cutting force signals which have a dominant effect on cutting dynamics. The aim of this study is, through Dynamic Data System methodology, to find the inherent characteristics of an ultrasonic vibration cutting process by considering natural frequencyand damping coefficient. Surface roughness and stability of cutting process under ultrasonic vibration are also considered

채터 진동에서의 동적 절삭력의 모델링과 안정성 해석

  • 강명창;김정석
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1992.04a
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    • pp.28-32
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    • 1992
  • The elimination of chatter vibration is necessary to improve the precision and the productivity of the cutting operation. A new mathematical model of chatter vibration is pressented in order to predict dynamic cutting force from static cutting data. Chatter vibration occurring in the tool structure of lathe is treated theoretically, considering the regenerative effect. The Stability Analysis is carried out by a two degress of freedom system. The dynamic cutting force is analytically expressed by the static cutting coefficient and the dynamic cutting coeccicient which can be determined from the cutting mechanics. The static cutting coefficient controls high speed chatter stability, while the dynamic cutting coefficient dominates low chatter stability. From above considerations, the cirtical width of cut which governs chatter stability was obtained.