• Title/Summary/Keyword: Machining factor

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A Study on the Optimal Conditions of Hole Machining of Microplate by Application of Response Surface Methodology in Wire-Pulse Electrochemical Machining (와이어 펄스전해가공에서 반응표면분석법을 응용한 미세박판의 홀 가공 최적 조건에 관한 연구)

  • Song, Woo-Jae;Lee, Eun-Sang
    • Journal of the Korean Society of Manufacturing Process Engineers
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    • v.16 no.5
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    • pp.141-149
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    • 2017
  • Due to the inaccuracy of micro-machining, various special processing methods have been investigated recently. Among them, pulse electrochemical machining is a promising machining method with the advantage of no residual stress and thermal deformation. Because the cross section of the wire electrode used in this study is circular, wire-pulse electrochemical machining is suitable for micro-hole machining. By applying the response surface methodology, the experimental plan was made of three factors and three levels: machining time, duty factor, and voltage. The regression equation was obtained through experiments. Then, by referring to the main effect diagram, we fixed the duty factor and machining time with little relevance, and solved the equation for the target 900 microns to obtain the voltage value. The results obtained from the response surface methodology were approximately those of the target value when the actual experiment was carried out. Therefore, it is concluded that the optimal conditions for hole processing can be obtained by the response surface methodology.

Die Sinking Electrical Discharge Machining of SiC/AI Metal Matix Composite (탄화규소/알루미늄 금속계 복합재료의 형상방전가공)

  • 왕덕현
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.7 no.1
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    • pp.34-40
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    • 1998
  • Conductive metal matrix composite(MMC) material of 30% silicon carbide particulated based on aluminum matrix was machined by die sinking electrical discharge machining(EDM) process according to different current and duty factor for reverse polarity of electrode. Material removal rate(MRR) was examined by process under various operation conditions. The surface morphology was evaluated by surface roughness parameter and scanning electron microscopy(SEM) research. The MRR was suddenly increased over 11 ampere of current, and it was slightly changed over 0.3 of duty factor. The maximum surface roughness of EDMed surface was affected by the duty factor. The SEM photograghs of EDMed surface showed wide recast distribution region of melting materials as increased of current and duty factor.

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Determination of Optimal Cutting Conditions Based on the Relationship between Tool Grade and Workpiece Material (피삭재와 공구재종의 상관관계에 근거한 적정 절삭조건의 결정)

  • 한동원;고성림;이건우
    • Journal of the Korean Society for Precision Engineering
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    • v.15 no.6
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    • pp.79-89
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    • 1998
  • In determining optimal cutting condition for face milling operation, tool wear is an important factor. For the purpose of establishing the relationship between various machining factors and tool wear, cutting tests have been performed. As a result, hardness and chemical composition of workpiece material, chemical composition and grain size of cutting tool and cutting speed have been selected as machining factors. In addition, relationship between feed rate and workpiece hardness has been observed. Prior to utilizing cutting conditions recommended by ‘Machining Data Handbook(MDH)’ as a knowledge base, an analysis for the validity of the MDH has been provided. Based on this analysis, tool life criteria applied by MDH has been modified. Finally, using MDH recommended data for neural network trainning, the results from the trained neural network for optimal cutting condition for some given workpiece and cutting tool can be used as reference cutting conditions.

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Parametric Study for Hole Machining in Natural Fiber Composites (천연섬유 복합재료의 홀 가공을 위한 파라메트릭 연구)

  • Lee, Dong-Woo;Oh, Jung-Suck;Song, Jung-Il
    • Composites Research
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    • v.30 no.1
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    • pp.35-40
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    • 2017
  • In this study, natural fiber composites including flax fiber reinforcement was manufactured. It was tried to find optimum design of drill and machining factor for minimizing the damage during hole machining in natural fiber composites. Taguchi optimization was used for minimizing the number of experiments and evaluation of the effect of machining factor during hole machining in natural fiber composites. The experimental results indicate that the newly designed drill distributes cutting resistance well and minimizes surface roughness and produces fine surfaces. Developed new drill has been dispersed in the cutting resistance during processing, it was possible to obtain the smooth hole surface. Also, it was found that optimal rotational speed and feed rate of drill for hole machining.

The Effect on the Machining Phenomenon due to the Change of the Quill Rigidity in a Side-Cut Grinding (측면 연삭가공에 있어서 퀄축강성변화가 가공현상에 미치는 현상)

  • 김창수;서영일;이종찬;정성환
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1995.10a
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    • pp.33-37
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    • 1995
  • A side-cut grinding generates a machining error by the decrease of the quill rigidity. In this paper, The effect on the grinding force, machining error and surface roughness due to the change of the quill rigidity is investigated experimentally. The slenderness ratio of the quill is a significant factor to analyse the change of the grinding force and machining error.

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Study on Machining Speed according to Parameters in Micro ECM (가공 인자에 다른 미세 전해 가공 속도 변화 연구)

  • Kwon, Min-Ho;Park, Min-Soo;Shin, Hong-Shik;Chu, Chong-Nam
    • Journal of the Korean Society for Precision Engineering
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    • v.28 no.3
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    • pp.308-314
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    • 2011
  • In micro electrochemical machining (micro ECM), machining conditions have been determined to maintain a small side gap and to machine a workpiece stably However, machining speed is slow. To improve machining speed while maintaining the form accuracy, the paper investigates machining parameters such as pulse amplitude, duty ratio, pulse on-time, and the electrolyte's temperature and concentration. The experiment in this study shows that the electrolyte's concentration is the key factor that can reduce machining time while maintaining the form accuracy Micro square columns were fabricated to confirm the machining parameters' effects.

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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A Study on Processing Shape and Overcutting of Invar Sheet by Pulse Electrochemical Machining (펄스전해가공을 이용한 인바 박판의 가공 형상 및 Overcutting 현상에 관한 연구)

  • Yang, Bu-Yeol;Kim, Seong-Hyun;Choi, Seung-Geon;Choi, Woong-Hirl;Chun, Kwang-Ho;Lee, Eun-Sang
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.24 no.3
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    • pp.314-319
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    • 2015
  • Invar is a compound metal of Fe-Ni system contained 36.5% Ni. The characteristic of invar is that the coefficient of thermal expansion is $1.0{\times}10^{-6}cm/^{\circ}C$. It is approximately 10 times smaller than series of steel. Because of this low thermal expansion characteristic of Invar, it is used to shadow mask of display device such as UHDTV or OLED TV. In this study, pulse current from pulse generator instead of DC current is used to overcome the disadvantages of the conventional electrochemical machining. Pulsed current with different duty factor in PECM affect the precise geometry. Pulse electrochemical machining is conducted to machine the micro hole to the invar sheet with different duty factor. The machined shape and overcut of invar sheet with different duty factor is observed by optical microscope and scanning electron microscope (SEM).

Real-Time Prediction of Electrode Wear for the Small Hole Pass-Through by EDM-drill (방전 드릴을 이용한 미세 홀 관통 공정의 전극 소모량 실시간 예측)

  • Choi, Yong-Chan;Huh, Eun-Young;Kim, Jong-Min;Lee, Cheol-Soo
    • Journal of the Korean Society of Manufacturing Technology Engineers
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    • v.22 no.2
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    • pp.268-274
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    • 2013
  • Electric discharge machining drill (EDM-drill) is an efficient process for the fabrication of micro-diameter deep metal hole. As there is non-physical contact between tool (electrode) and workpiece, EDM-drill is widely used to machine the hard machining materials such as high strength steel, cemented carbide, titanium alloys. The electro-thermal energy forces the electrode to wear out together with the workpiece to be machined. The electrode wear occurs inside of a machining hole. and It causes hard to monitor the machining state, which leads the productivity and the quality to decrease. Thus, this study presents a methodology to estimated the electrode wear amount while two coefficients (scale factor and shape factor) of the logarithmic regression model are evaluated from the experiment result. To increase the accuracy of estimation model, the linear transformation method is adopted using the differences of initial electrode wear differences. The estimation model is verified through experiment. The experimental result shows that within minute error, the estimation model is able to predict accurately.

Characteristics of Die Sinking Electical Discharge Machining for Pulse Duration (펄스지속시간에 따른 형상방전가공 특성)

  • 우정윤;왕덕현;윤존도
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 1997.04a
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    • pp.827-831
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    • 1997
  • Conductive veramic matrix composite(CMC) workpiece of TiC 33%/Al /sab 2/O /sab 3/ 66% Y /sab 2/ O /sab 3/ was machined by die sinking electrical discharge machining(EDM) according to different pulse duration and suty factor for reverse polarity of electrode. Material removal rate(MRR) was examined by process under various operating conditions. The surface morphology was evaluated by surface roughness values and scanning electron microscopy(SEM) research. The more MRR was obtained according to increase pulse duration and duty factor. Also the maximum surface roughness(Rmax) of EDMed surface was slightly changed with increased pulse duration and duty factor. The SEM photographs of EDMed surface showed wide recast wide recast distribution region of melting materials in purse duration 0.130(ms) than 0.048(ms).

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