• Title/Summary/Keyword: GMA Welding Process

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Position welding using disk laser-GMA hybrid welding (디스크 레이저-아크 하이브리드 용접을 이용한 포지션 용접)

  • Lim, Hyun-Sik;Kim, Jung-Hak;Kim, Cheol-Hee;Kim, Jeong-Han
    • Proceedings of the KSME Conference
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    • 2007.05a
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    • pp.1299-1306
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    • 2007
  • The combination of laser beam and electric arc sharing common weld pool has widely been investigated since the late seventies, but it is beginning of the industrial uses. Recently, laser-GMA hybrid welding process showed possibility to overcome the tight gap tolerance with improved productivity. The laser-arc hybrid welding process is inherently complex because it has three kinds of process parameters: arc welding, laser welding and hybrid welding parameters. In this study, the optimum range of the process parameters were determined by high speed image analysis which could unveil the welding phenomena in laser-arc hybrid welding. The laser-arc hybrid welding was applied for position welding from the flat position to the overhead position and the welding characteristics were investigated.

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Effect of Shielding gas Composition on Arc Stability and Transfer mode of High deposition GMA Welding (고용착 GMA 용접의 Arc 안정성 및 용적이행 현상에 미치는 보호gas의 영향)

  • 경규담;천홍정;이정헌;강봉용;김희진
    • Journal of Welding and Joining
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    • v.15 no.1
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    • pp.109-115
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    • 1997
  • The arc stability and the metal transfer mode of high deposition GMA welding were investigated using various compositions of shielding gas with two types of filler, ie solid wire and metal cored wire. As for a solid wire, the transfer mode changed from axial spray to rotational spray with increasing wire feed rate (welding current) and the transition current was different with the gas composition. The gas composition also affected the apparent stability of rotating arc. As for a metal cored wire, on the other hand, no transition occurred and thus spray transfer mode could be applied with the welding current over 500A (deposition rate over 300g/min). Looking for the development of high deposition GMA welding process, above results were discussed in two different ways, one is to elevate the transition current, the other is to stabilize the rotational transfer mode.

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Modelling of Bead Geometry for GMA Welding Process Using FEM (FEM을 이용한 GMA 용접공정의 비드형상 모델링)

  • 정영재
    • Proceedings of the Korean Society of Machine Tool Engineers Conference
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    • 1997.10a
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    • pp.298-303
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    • 1997
  • Over the last few year, there has been a growing interest in quantitative representation of heat transfer phenomena in weld pools in order to relate the processing conditions to the quality of the weldment produced and to use this information for the optimisation and robotization of the welding process. Normally, a theoretical model offers a powerful alternative to check out the physical concepts of the welding process and to calculate the effects of varying any of parameters. To solve this problem, a transient 2D(two-dimensional) heat conduction were developed for determining bead geometry and temperature distribution for the GMA welding process. The equation was solved using a general thermofluid-mechanics computer program, PHOENICS code, which is based on the SIMPLE algorithm. The simulation results showed that the calculated bead geometry from the developed models reasonablely agree with the experiment results.

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Numerical Simulation of Bubble and Pore Generations by Molten Metal Flow in Laser-GMA Hybrid Welding (레이저-GMA 하이브리드 용접에서 유동에 의한 기포 및 기공 형성 해석)

  • Cho, Won-Ik;Cho, Jung-Ho;Cho, Min-Hyun;Lee, Jong-Bong;Na, Suck-Joo
    • Journal of Welding and Joining
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    • v.26 no.6
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    • pp.67-73
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    • 2008
  • Three-dimensional transient simulation of laser-GMA hybrid welding involving multiple physical phenomena is conducted neglecting the interaction effect of laser and arc heat sources. To reproduce the bubble and pore formations in welding process, a new bubble model is suggested and added to the established laser and arc welding models comprehending VOF, Gaussian laser and arc heat source, recoil pressure, arc pressure, electromagnetic force, surface tension, multiple reflection and Fresnel reflection models. Based on the models mentioned above, simulations of laser-GMA hybrid butt welding are carried out and besides the molten pool flow, top and back bead formations could be observed. In addition, the laser induced keyhole formation and bubble generation duo to keyhole collapse are investigated. The bubbles are ejected from the molten pool through its top and bottom regions. However, some of those are entrapped by solid-liquid interface and remained as pores. Those bubbles and pores are intensively generated when the absorption of laser power is largely reduced and consequently the full penetration changes to the partial penetration.

LASER ARC HYBRID WELDING

  • Dilthey, Ulrich;Keller, Hanno
    • Proceedings of the KWS Conference
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    • 2002.10a
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    • pp.162-168
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    • 2002
  • Hybrid Welding means the coupling of the energy of two different energy sources in a common process zone. This paper describes prospects in laser-arc-hybrid-welding. Different kinds of lasers ($CO_2$ laser and Nd:YAG laser) and arc processes (TIG, Plasma and GMA) are considered.

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A Study on Modeling of Short-Circuliting Phenomena and Selection of Current Waveform for Reduction of Spatter in GMAW (가스 메탈 아크 용접에서 단락현상 모델링 및 스패터 감소를 위한 전류파형 선정에 관한 연구)

  • 황주호;문형순;나석주;한광수
    • Journal of Welding and Joining
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    • v.14 no.1
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    • pp.57-67
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    • 1996
  • With an expansion in automation of welding processes, emphasis has been shifted from other welding processes to the GMA welding. However, there is a problem with this process that the spatter occurs very frequently. In GMA welding, there are several types in the way of metal transfer from the electrode wire to the weld pool, which have a close relatonship with the spatter genetration. This study was concerned with the spatter occurring in the short-circuiting transfer. In welding with short-circuiting, the electromagnetic force formed by the welding current facilitatics the rupture of the metal bridge between the wire and workpiece and ensures the normal process of the welding process. However, the spatter can be genetrated from the droplet because of the upward magnetic force, when the droplet contacts with the weld pool. The passage of current through the bridge results in the accumulation of the thermal energy, which causes the bridge to explode in the final stage of short-circuiting, thus forming the spatter. Based on the above phenomena in conjunction with other experimental results published, the physical phenomenon related with the occurrence of spatter was modeled and the current waveform was investigated to reduce the spatter. Finally, the fuzzy rule based method was proposed to predict the time of short-circuiting and arcing in the metal transfer.

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A Study on Sensitivity Analysis for Selecting the Process Parameters in GMA Welding Processes (GMA 용접공정에서 공정변수 선정을 위한 민감도 분석에 관한 연구)

  • Kim, Ill-Soo;Shim, Ji-Yeon;Kim, In-Ju;Kim, Hak-Hyoung
    • Transactions of the Korean Society of Machine Tool Engineers
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    • v.17 no.5
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    • pp.30-35
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    • 2008
  • As the quality of a weld feint is strongly influenced by process parameters during the welding process, an intelligent algorithms that can predict the bead geometry and shape to accomplish the desired mechanical properties of the weldment should be developed. This paper focuses on the development of mathematical models fur the selection of process parameters and the prediction of bead geometry(bead width, bead height and penetration) in robotic GMA(Gas Metal Arc) welding. Factorial design can be employed as a guide for optimization of process parameters. Three factors were incorporated into the factorial model: arc current, welding voltage and welding speed. A sensitivity analysis has been conducted and compared the relative impact of three process parameters on bead geometry in order to verify the measurement errors on the values of the uncertainty in estimated parameters. The results obtained show that developed mathematical models can be applied to estimate the effectiveness of process parameters for a given bead geometry, and a change of process parameters affects the bead width and bead height more strongly than penetration relatively.