• Title/Summary/Keyword: machining condition

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A Study on Lenticular Lens Mold Fabrication by Shaping (세이핑에 의한 렌티큘러 렌즈 금형 가공에 관한 연구)

  • Je T. J.;Lee E. S.;Shim Y. S.;Kim E. Z.;Na K. H.;Choi D. S.
    • Transactions of Materials Processing
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    • v.14 no.3 s.75
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    • pp.245-250
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    • 2005
  • Recently, micro machining technology for high precision mold becomes more interested for mass production of high performance optical parts micro-grooved on the surface, which is under very active development due to its effectiveness in the view point of optical performance. Mechanical micro machining technology now has more competitiveness on lithography, MEMS or LIGA processes which have some problems to fabricate especially cylinder type of groove in such as lenticular lens for illumination angle modulation system. In this study. a lenticular lens mold with U-type micro groove is fabricated making utilizing of the benefit of the mechanical micro machining technology. A shaping machining process is adapted using 3 axis degree of freedom micro machining system and single crystal natural diamond tool. A brass and a electroless nickel materials are used for mold fabrication. Machining force, chip shape and machined surface are investigated from the experiment and an optimal machining condition is found based on the examined problems from the micro cutting process.

Effect of Compounding Electrolytic Machining in Ball End Milling (볼엔드밀 절삭가공에서 전해복합의 효과)

  • 주종길;박규열
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2001.04a
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    • pp.1025-1028
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    • 2001
  • In this report, a new method compounding the electrolytic machining with ball end milling process to increase the machining efficiency was introduced. From the experimental result, it was confirmed that effect of cutting force reduction and finer surface roughness can be obtained in a certain condition of ball end milling and electrolytic machining conditions.

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Optmization of Cutting Condition based on the Relationship between Tool Grade and Workpiece Material (2nd. Report) (피삭제와 공구재종의 상관관계에 근거한 절삭조건의 최적화(II))

  • 한동원;고성림
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1995.10a
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    • pp.169-172
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    • 1995
  • In optmizing cutting condition for face milling operation, tool wear is an important maching factor. For the purpose of establishing the relationship between various maching factor and tool wear, cutting tests have been performed. As a result, hardness and chemical composition of workpiece material, chemical compositition and grain size of cutting tool and cutting speed have been selected as machining factor. In addition, relationship between feed rate and workpiece hardness has been observed. Prior to utilizing cutting condition recommended by 'Machining Data Hardbook(MDH)' as a Knowledge base, an analysis for the validity has been provided. Based on this analysis, tool life criteria applied by MDH has been modifiied. Finaly, using MDH recommended data for neural network trainning, we can compensate the result form the trained neural network for optimizing cutting condition for some given workpice and cutting tool.

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Selection of the Optimal Machining Condition for a High-hardness Resin using the 5-axis Machine (5축 가공기를 이용한 고경도 수지의 최적가공조건 선정)

  • Kim, Nam-Hun
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.11 no.5
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    • pp.29-34
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    • 2012
  • This study describes the selection of optimum machining conditions for a high-hardness resin by using a large 5-axis machine. The experiments were conducted to examine the main factors that affect the surface roughness, such as the spindle speed, axial and radial depths of the cut, and pattern of the cutter path. To analyze the experiment results, the factor with the biggest impact on machining was determined using the smaller-the-better characteristic of the Taguchi method; the effectiveness of the experiment was then confirmed by verifying the selected optimum machining condition.

Effects of Machining Conditions for Improvement of Surface Roughness on Micro End-Milling (마이크로 엔드밀 가공시 가공인자가 표면거칠기 향상에 미치는 영향)

  • Cho, Byoung-Moo;Kim, Sang-Jin;Park, Hee-Sang;Bae, Myung-Il
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.17 no.2
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    • pp.71-76
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    • 2008
  • Micro end-milling is one of effective technology that is able to do ultra-precision machining while increasing the productivity and has wide application field. But selection of machining condition is very difficult because of complicated machining mechanism. Therefore this study was carried out to select working factors to get the optimum surface roughness. Machining condition are depth of cut, feed rate and spindle revolution. The result of this study showed that Surface roughness was affected, in the other of depth of cut, spindle revolution, feed rate. And this study provided an regression equation relating surface roughness to working factors through Regression Analysis and determination coefficient of regression equation had a satisfactory reliability of 79%.

Research on Die Machining using 3D Printing and CAM System (3D 프린팅시스템과 CAM시스템을 활용한 금형가공에 관한 연구)

  • Han, Kyu-Taek
    • Journal of Power System Engineering
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    • v.18 no.6
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    • pp.91-98
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    • 2014
  • The purpose of this research is to investigate optimum machining conditions to improve the quality of die using the CAD/CAM system(Power Shape/Power Mill) and 3D printing. Surface roughness is widely used as an index for processing degree of accuracy. The Power Shape was used to model the shape of product. And the model shape is confirmed by 3D printing system(BFB-3000). Also, tool path and NC-codes were generated using Power Mill. Finally, the product was cut using CNC machine(NBS-2025). The cutting time and surface roughness were measured by measuring instrument. And then this process was repeated by changing the conditions to find optimal machining conditions. The surface roughness behavior with regard to specific factors were analyzed. Through this study, the optimal machining condition can be obtained.

Selection of Machining Inclination Angle of Tool Considering Tool Wear in High Speed Ball End Milling (고속 볼앤드밀링에서 공구마모를 고려한 공구의 가공경사각 선정)

  • Ko, Tae-Jo;Jung, Hoon;Kim, Hee-Sool
    • Journal of the Korean Society for Precision Engineering
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    • v.15 no.9
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    • pp.135-144
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    • 1998
  • High speed machining is a key issue in die and mold manufacturing recently. Even though this technology has great potential of high productivity. tool wear accelerated by high cutting speed to the hardened materials is other barrier. In this research, we attempted to reduce tool wear by considering tool inclination angle between tool and workpiece. The boundary lines describing machined sculptured surfaces were represented by both of cutting envelop condition and the geometric relationship of successive tool paths. Chip cross section, and cutting length could be obtained from the calculated cutting edge and the rotational engagement angle. From the simulation results, machining inclination angle of tool of $15^\circ$ was good enough from the point of tool wear and cutting force, and this value was verified through the cutting experiment of high speed ball end milling.

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Condition Monitoring of Tool Wear and Breakage using Sound Pressure in Turning Processes (선삭공정에서 음압을 이용한 공구마멸 파손의 상태감시)

  • 이성일
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.6 no.3
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    • pp.36-43
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    • 1997
  • In order to make unmanned machining systems with satisfactory performances, it is necessary to incorporate appropriate condition monitoring systems in the machining workstations to provide the required intelligence of the expert. This paper deals with condition monitoring for tool wear and breakage during turning operation. Developing economic sensing and identification methods for turning processes, sound pressure measurement and digital signal processing technique are proposed. The validity of the proposed system is confirmed through the large number of cutting tests.

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The Influence of The Burr Reduction by The Chemical Reaction of Oxide Film on Aluminum (알루미늄 박막의 표면화학반응이 버 감소에 미치는 영향)

  • 이현우;박준민;정상철;정해도;이응숙
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1997.10a
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    • pp.907-910
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    • 1997
  • With increasing the needs for micro and precision parts, micro machining technology has been studied to fabricate a small part with high density such as electronics, optics, communications, and medicine industry more than before. But there are many problems to be solved requiring a high-level technology. So this research presents the new method to fabricate a small part through applying chemical mechanical micro machining (C3M) for the Al wafer. Al(thickness I ,u m) was sputtered on the Si substrate. Al is widely used as a lightweight material. However form defect such as burr has a bad effect on products. To improve machinability of ductile material, oxide layer was formed on the surface of AI wafcr before grooving by chemical reaction with HN03(10wt%). And then workpieces were machined to compare conventional micro-machining process with newly suggested method at different machining condition such as load and feed rate. To evaluate whether or not the machinability was improved by the effect of chemical condition, such as the size, the width of grooves 'and burr generation were measured. Finally, it is confirmed that C3M is one of the feasible tools for micro machining with the aid of effect of the chemical reaction.

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A Study on Realization of Machining Process and Condition in Virtual Space (가상공간의 가공 공정과 상태 구현에 관한 연구)

  • Lee oo-Hun;Kim Bong-Suk;Hong Min-Sung;Kim Jong-Min;Ni Jun;Park Sang-Ho;Song Jun-Yeob;Lee Chang-Woo;Ha Tae-Ho
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2005.05a
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    • pp.462-467
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    • 2005
  • This paper presents virtual machining system in order to realize turning process in virtual space. A reliable virtual turning process simulation was developed based on the surface shaping system which is capable of considering geometric model, thermal error model, and vibration model. Accuracy of surface shape resulting from proposed machining simulator was verified experimentally. This paper also developed the watchdog agent that continuously assessed, diagnosed, and predicted performance of products and machines in machining. The Watchdog agent extracted feature signal using time-frequency analysis among various signals from multi-sensor and evaluated machining condition using performance confidence value.

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