• Title/Summary/Keyword: 5 Axis Machining

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Optimization of Finish Cutting Condition of Impeller with Five-Axis Machine by Response Surface Method (반응표면법을 이용한 5축 임펠러 정삭 가공의 최적화)

  • Lim, Pyo;Yang, Gyun-Eui
    • Transactions of the Korean Society of Mechanical Engineers A
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    • v.31 no.9
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    • pp.924-933
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    • 2007
  • An impeller is a important part of turbo-machinery. It has a set of twisted surfaces because it consists of many blades. Five-axis machining is required to produce a impeller because of interference between tool and workpiece. It can obtain good surface integrity and high productivity. This paper proposes finish cutting method for machining impeller with 5-axis machining center and optimization of cutting condition by response surface method. Firstly, cutting methods are selected by consideration of operation characteristics. Secondly, response factors are determined as cutting time and cutting error for prediction of productivity. Experiments are projected by central composite design with axis point. Thirdly, regression linear models are estimated as single surface in the leading edge and as dual surface in the hub surface cutting. Finally, cutting conditions are optimized.

Hybrid Technology using 3D Printing and 5-axis Machining for Development of Prototype of the Eccentric Drive System (편심구동장치 시제품 개발을 위한 3D프린팅-5축가공 복합기술)

  • Hwang, Jong-Dae;Yang, Jun-Seok;Yun, Sung-Hwan;Jung, Yoon-Gyo
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.15 no.2
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    • pp.38-45
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    • 2016
  • Since a 5-axis machine tool has two rotary axes, it offers numerous advantages, such as flexible accessibility, longer tool life, better surface finish, and more accuracy. Moreover, it can conduct whole machining by rotating the rotary feed axes while setting the fixture at once without re-fixing in contrast to conventional 3-axis machining. However, it is difficult to produce complicated products that have a hollow shape. In contrast, 3D printing can produce an object with a complicated hollow shape easily and rapidly. However, because of layer thickness and shrinkage, its surface finish and dimensional accuracy are not adequate. Therefore, this study proposes hybrid technology by integrating the advantages of these two manufacturing processes. 3D printing was used as the additive manufacturing rapidly in the whole body, and 5-axis machining was used as the subtractive manufacturing accurately in the joining and driving places. The reliability of the proposed technology was verified through a comparison with conventional technology in the aspects of processing time, surface roughness. and dimensional accuracy.

A Study on the 5-Axis Machining of End Mill Body with Insert Tip (Insert Tip용 End Mill Body의 5-축 가공에 관한 연구.)

  • 조현덕;박영원
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2001.10a
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    • pp.399-406
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    • 2001
  • This study describes the geometric characteristic and the 5-axis machining method of end mill body with insert tip. The geometry of end mill body is consisted of the flute part and the insert tip part. Thus, this study defines the flute part as ruled surface with constant helix angle and the insert tip part as rectangular plane on general direction. The geometric algorithm and the 5-axis NC part program were calculated by our programmed software and a sampled end mill body was machined on 5-axis machining center equipped with two index tables. The machined end mill body with insert tip was very agreeable to the designed end mill body with insert tip. Thus, the method proposed in this study may be very useful for the machining of end mill body with insert tip.

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A study on the development of rapid prototyping system using 5 axis machining (5축 가공을 이용한 쾌속조형 시스템의 개발)

  • 정태성;양민양
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2002.10a
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    • pp.1011-1014
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    • 2002
  • In order to reduce the lead-time and cost, many useful methods have been applied to Rapid Prototyping (RP) in recent years. But cutting process is still considered as one of the effective RP methods that have been developed and currently available in the industry. It also owen practical advantages such as precision and versatility. However, traditional 3 axis NC machining has some inherent limitations such as the restriction of tool accessibility and the complex setup. In this work, a new rapid prototyping system with high speed 5 axis machining has been developed to overcome those limitations. The architecture of developed system is described in detail and the successful application examples are presented.

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Determining Machinability and Setup Orientation for Five-axis NC Machining of Free Surfaces (머신 컨피규레이션에 따른 자유곡면의 5 축 가공성과 셋업 자세)

  • Kang, Jae-Kwan;Suh, Suk-Hwan
    • Journal of Korean Institute of Industrial Engineers
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    • v.21 no.1
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    • pp.67-84
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    • 1995
  • Five-axis NC machining is advanced machining technology by which highly geometrically complicated parts can be machined accurately with high machinability. In this paper, we investigate the problems of determining the machinability and part setup orientation for a given surface models. We first develop kinematic model of the five-axis machines based on the axis configuration, then develop algorithms for determining the feasibility of machining by one setup(machinability) and the part orientation for the C,A and A,B type configuration. The machinability is determined by computationally efficient procedure for finding the intersection between the feasible area on the sphere and the numerical map called binary spherical map(BSM), and the part setup is chosen such that the rotational range is minimized among the feasible configurations. The developed algorithms are tested by numerical simulations, convincing they can be readily implemented on the CAD/CAM system as an automated process planner giving the efficient machine type and setup for NC machining.

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5-Axis Cross-Coupling Control System Based on a Novel Real-Time Tool Orientation Error Model (새로운 실시간 공구방향오차 모델에 기초한 5 축 연동제어 시스템)

  • Byun, Je-Hyung;Jee, Sung-Chul
    • Journal of the Korean Society for Precision Engineering
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    • v.27 no.8
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    • pp.48-53
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    • 2010
  • 5-axis CNC machining now is getting popular because it can deal with complex shapes such as impeller, turbine blade and propeller without additional equipment or process, proving a set of various tool orientations. CAM software related to 5-axis machining is being developed quickly so that users can take advantage of potential capacities of 5-axis machine tools. However, only a few researches can be found in the area of control strategy development for 5-axis machining. This paper proposes a 5-axis cross-coupling control system based on a novel tool orientation error model. The proposed tool orientation error model provides accurate information on the tool orientation error in real time, which in turn enables directly controlling the tool orientation accuracy. The proposed control system also employs a contour error model to calculate the contour error and reflect it in the control as well. The accuracy of the proposed tool orientation error model is verified and the performance of the 5-axis cross-coupling control system in terms of both contouring and tool orientation accuracy is evaluated through computer simulations compared with existing 5-axis control systems.

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.

A Study on Efficient Machining of Impeller with 5-axis NC Machine (임펠러의 효율적인 5축 NC 가공에 관한 연구)

  • 조환영;이희관;공영식;양균의
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 2002.10a
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    • pp.399-404
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    • 2002
  • An efficient method of machining impeller is presented. In the roughing process, the cutting area is divided into two regions to reduce cutting time and select cutting tools. The regions are determined by characteristic point on the geometry of impeller blade. Then, the tool of the maximum radius is selected in each area. Tool interference in cutting areas is avoided by checking the intersection between cooing tool axis and ruling line on blade surface.

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Development of a Geometric Error Analysis and Virtual Manufacturing System for Gantry-Type 5-Axis Machining Centers (문형 5축 머시닝센터의 기하학적 오차해석 및 가상가공 시스템 개발)

  • 윤태선;조재완;김석일;곽병만
    • Journal of the Korean Society for Precision Engineering
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    • v.15 no.10
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    • pp.172-179
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    • 1998
  • To quickly determine the effect of the substitute component on the machine's performance is very important in the design and manufacturing processes. And minimizing machine cost and maximizing machine quality mandate predictability of machine accuracy. In this study, in order to evaluate the effects of the component's geometric errors and dimensions on the machining accuracy of gantry-type 5-axis machining centers, a geometric error analysis and virtual manufacturing system are developed based on the mathematical model for the shape generation motion of machine tool considering the component's geometric errors and dimensions, the solid modeling techniques and so on.

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