• 제목/요약/키워드: Short circuit metal transfer

검색결과 35건 처리시간 0.016초

박판 GMA 용접에서 단락 주파수를 이용한 이면비드의 제어에 관한 연구 (A Study on the Back Bead control by Using Short Circuit Frequency in GMA Welding of Sheet Metal)

  • 안재현;김재웅
    • Journal of Welding and Joining
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    • 제13권4호
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    • pp.75-84
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    • 1995
  • In GMA welding of sheet metal, the short circuit metal transfer mdoe is preferred because of its low heat input and capability of bridging the root gap. The molten electrode is transferred to the workpiece during repectitive short circuit in the model. The waveform of welding current or voltage and the frequency of short circuiting are affected by a number of factors including: magnitude of welding current and voltage, root gap, electrode extension, power supply characteristics, and so on. In this study experimental models were proposed, which are able to determine the relationship between the root gap and short circuit frequency and the relationship between the root gap and appropriate welding speed that produces the good quality of back bead without burn through. Using the experimental models, the root gap can be obtained from measuring the short circuit frequency, and then the appropriate weldig speed to the root gap can be determined. Thus a back bead control system was constructed by controlling the welding speed for maintaining the quality of back bead. The developed system has shown the successful capability of back bead control.

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$CO_2$ 용접의 스패터 발생에 미치는 용적이행 모드의 영향 (Effect of Metal Transfer Mode on Spatter Generation of $CO_2$ Welding)

  • 강봉용;김희진
    • Journal of Welding and Joining
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    • 제15권2호
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    • pp.72-80
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    • 1997
  • The spatter generation rate of GMA welding with $CO_2$ gas shielding was measured with the change of welding conditions such as wire feeding rate and welding voltage and then the results were analized with the accompanying changes in metal transfer mode and in bead geometry. The spatter generation rate (SGR) was relatively low not only wit the short circuit transfer but with the truely globular transfer mode. However, the SGR resulted with the mixed mode were consistantly high. The resultant wave pattern of mixed mode was due to the coexistance of short-circuit and globular transfer and characterized by the frequent appearance of instantaneous short circuit. Considering the result of SGR and that of bead geometry, it could be concluded that when the wire feeding rate (or welding current) was either low or high, the optimum bead shape could be obtained along with the low spatter generation. However, in the middle range of wire feeding rate, the optimum bead shape was only obtained in the mixed mode condition resulting in the high spatter generation.

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$CO_2$ 용접기의 대전류영역에서의 단락이행 유도에 대한 용접성능개선에 관한 연구 (A Study on Welding Perfomance Improvement using Short-Circuit Metal Transfer Induction on High-current $CO_2$ Arc Welding Machine)

  • 채영민;고재석;구자열;최규하;목형수;김규식;원충연
    • 전력전자학회:학술대회논문집
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    • 전력전자학회 1998년도 전력전자학술대회 논문집
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    • pp.166-170
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    • 1998
  • The metal transfer of CO2 arc welding machine can be devided into short-circuit(low current) metal transfer. Especially in large crrent region, the main problem of CO2 arc welding machine is much spatter generation which is caused by mainly instant short-circuit matal transfer. So in this paper descrives new current control method in large current region, which can improve welding performance and lessen spatter generation. And as a result of experiment, the effect of proposed control method is demonstrated.

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VOF 방법을 이용한 GMA 용접의 금속 이행에 관한 동적 해석 (II) - 단락 이행 모드의 해석 - (Dynamic Analysis of Metal Transfer using VOF Method in GMAW (II) - Short Circuit Transfer Mode -)

  • 최상균;고성훈;유중돈;김희진
    • Journal of Welding and Joining
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    • 제15권3호
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    • pp.47-55
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    • 1997
  • Dynamic characteristics of the short circuit mode are investigated using the Volume of Fluid (VOF) method. When the initial molten drop volume, contact area and wire feed rate are given, rate change of the molten bridge profiles, pressure and velocity distributions are predicted. The electromagnetic force with proper boundary conditions are included in the formulation to consider the effects of welding current. It is found that the molten metal is transferred to the weld pool mainly due to the pressure difference caused by the curvatures in the initial stage, and electromagnetic force becomes dominant factor in the final stage of short circuit transfer. Necking occurs at the contact position between the molten drop and weld pool, and the initial molten drop volume and welding current have significant effects on break-up time.

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$CO_2$ 용접에서 전류 펄스 조건이 스패터 발생에 미치는 영향 (The Effect of Current Pulsing Parameters on the Spatter Generation Rate during $CO_2$Shielded Gas Metal Arc Welding)

  • 강덕일;최재호;장영섭;김용석
    • Journal of Welding and Joining
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    • 제16권4호
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    • pp.63-72
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    • 1998
  • In this study, the effects of the current pulsing conditions, on the spatter generation rate during the $CO_2$ gas metal arc welding (GMAW) were investigated. Normally using the inverter type power supply, of which the welding current waveform was regulated to reduce the spatter generation rate, but in this study pulsing was imposed on the welding current. Observation of the metal transfer phenomena during the pulsed current GMAS indicated that the droplet transfer from the electrode via the short circuit transfer and the repelling transfer mode could be minimized by selecting optimum combinations of pulsing parameters, which include base and peak current, base and pak duration. It was also demonstrated in this study that proper combinations of the pulsing parameters led to reduce generation of spatters during GMAW shielded by $CO_2$ gas.

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GMA용접 시스템의 동적 거동에 대한 해석 (Analysis of Dynamic Behavior in GMAW System)

  • 이재영;최재형;이지혜;유중돈
    • Journal of Welding and Joining
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    • 제18권5호
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    • pp.41-48
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    • 2000
  • Dynamic behaviors of the GMAW system are simulated using the short-circuit transfer model and the characteristic equations fir the power supply, wire system and arc. The conventional wire equation, which relates the rate change of the wire extension to the wire feed rate and melting rate, is modified to include effects of the molten drop attached at the wire tip. The modified wire equation describes behaviors of the GMAW system more precisely and provides information about the initial bridge volume for short-circuit transfer. The proposed short-circuit model predicts the variation of parameters such as the current, voltage, short-circuit frequency and time considering the effects of the surface tension and electromagnetic force due to current. The calculated results are in broad agreements with the experimental results under the argon shielding condition.

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GMAW 용적이행 현상에 미치는 Ca의 영향 (Effect of Ca on Droplet Transfer Phenomena in GMA Welding)

  • 안영호;방국수;이종봉;장내웅
    • Journal of Welding and Joining
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    • 제12권4호
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    • pp.76-84
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    • 1994
  • Droplet transfer modes due to welding conditions and the effect of Ca in welding wire on droplet transfer were investigated. Droplet transfer mode in CO$_{2}$ welding was classified into 2 modes, that is, short circuit and globular transfer, with increasing welding current and voltage. With increasing Ca content in wire, repulsive pressure due to vaporization of Ca was considerably increased. In short circuit transfer region, arcing time was increased and droplet transfer cycle was decreased, with increasing Ca content. In globular transfer region, welding condition for globular transfer was lower current region, with increasing Ca content.

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FCA 용접의 아크현상에 미치는 Flux Type의 영향 (Effect of Flux Type on Arc Characteristic of FCA Welding)

  • 강성원;오은식;유덕상;안영호
    • Journal of Welding and Joining
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    • 제17권1호
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    • pp.116-123
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    • 1999
  • The $CO_2$ welding with 100% $CO_2$ shielding gas is commonly used because of its cost and efficiency. Arc phenomena of the $CO_2$ welding is influenced by various factors such as chemical compositions of welding wire, shielding gas, welding condition and welding power source etc. In this study, arc phenomena is investigated by using two type of FCW(titania type, semi-metal type). Then, the welding quality and optimum welding condition can be selected. From this study, the following results were obtained; 1) In low current range(140A), FCW up to welding voltage(22V) resulted in a typical short circuit transfer. 2) In high current range(320A), the arc stability in titania FCW of a typical globular transfer is better than that of semi-metal FCW.

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GMA용접에 있어서 스패터 발생에 미치는 와이어 탈산원소의 영향 (The Effect of Deoxidizers in a Wire on Spatter Generation in Gas Metal Arc Welding)

  • 방국수;안영호
    • Journal of Welding and Joining
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    • 제14권5호
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    • pp.145-150
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    • 1996
  • The variation of spatter generation in gas metal arc welding with welding conditions and wire compositions was investigated and interpreted in terms of arc stability. The transition range from a short circuit mode to a spray mode in the mixed gas welding showed an unstable arc and generated the largest amount of spatters. Titanium reduced spatters only in the globular mode of $CO_2$welding and silicon and manganese showed the same effect The effect of silicon and manganese, however, was no longer seen when titanium was added simultaneously to the wire. It is believed that deoxidizers easily form oxides on the anode and make the arc stable even in DCRP welding. The wires with deoxidizers also showed low short circuit frequency, resulting in the increase of large size spatters.

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$CO_2$ 용접의 단락이행영역에 있어서 스패터 발생특성 (Characteristics of Spatter Generation in the Short Circuit Transfer Region of $CO_2$ Arc Welding)

  • 안영호;이종봉;최원규
    • Journal of Welding and Joining
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    • 제19권6호
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    • pp.630-635
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    • 2001
  • The characteristics of spatter generation in the short circuit transfer region of $CO_2$ welding was investigated. Spatteriing phenomena could be classified into three types : Type I generated due to the abrupt increase of arc voltage in arcing duration. Type II by the gas ejection from molten metal and Type III generated by the arc instability at the moment of arc re-ignition just after short circuiting. Main observed types were dependent on the chemical composition of welding wires. The case of YCW12 wires was mainly composed of spatters generated by Type l and Type II, while most, spatters in YCW11 wires were generated by Type II and Type III.

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