• Title/Summary/Keyword: weld metal

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Effects of Diffusible Hydrogen Content and Hardness on Cold Cracking in High Strength Weld Metal (고강도강 용접금속 저온균열 발생에 미치는 확산성수소량 및 경도의 영향)

  • Seo, Won-Chan;Bang, Kook-Soo
    • Journal of Ocean Engineering and Technology
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    • v.26 no.2
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    • pp.33-38
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    • 2012
  • The effects of the diffusible hydrogen content and hardness on the cold cracking in high strength weld metal were investigated. The diffusible hydrogen contents were influenced by welding parameters such as the voltage and contact tip-to-work distance (CTWD). The diffusible hydrogen content increased with an increase in voltage. However, it was decreased with an increase in CTWD. CTWD also influenced the weld metal hardness,especially when the wire used had a higher strength than the base metal. This showed that weld metal hardness had a more powerful effect on weld metal cold cracking than the diffusible hydrogen content in this experiment.

Variation of Toughness and Porosity Formation in Weld Metal with Al Content in Self-Shielded Arc Welding Wire (셀프실드용접 와이어의 Al 첨가량에 따른 용접금속 인성 및 기공형성 변화)

  • Bang, Kook-Soo;Park, Chan;Woong, Kil;Chang, Woong-Seong
    • Journal of Welding and Joining
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    • v.29 no.1
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    • pp.74-79
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    • 2011
  • Three different welding wires were used to study the effects of Al content on weld metal toughness and porosity formation in self-shielded arc welding. Weld metal microstructure showed that while wire with 1.3% Al content contains coarse $\delta$-ferrite, wires with less than 0.5% Al content showed no such phase. In addition to the microstructural differences, cleanliness in weld metal was also different among wires. It showed that weld metal toughness was influenced by the $\delta$-ferrite formation, cleanliness and Ni addition. Even though wires with less than 0.5% Al content showed higher weld metal toughness, they showed relatively poor workability, forming porosities in weld bead in lower arc voltages.

Effect of Heat Input and Interpass Temperature on the Strength and Impact Toughness of Multipass Weld Metal in 570MPa Grade Steel (570MPa급 용접구조용강 다층 용접금속의 강도 및 충격인성에 미치는 입열 및 패스간 온도의 영향)

  • Byun, Ji-Chul;Bang, Kook-Soo;Chang, Woong-Sung;Park, Chul-Gyu;Chung, Woo-Hyun
    • Journal of Welding and Joining
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    • v.24 no.1
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    • pp.64-70
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    • 2006
  • 570MPa grade weldable steels were gas metal arc welded with various heat inputs and interpass temperatures using flux cored wires. Effects of heat input and interpass temperature on the strength and impact toughness of weld metal were investigated in terms of microstructural change, recovery of alloying elements, and the amount of reheated weld metal. Increase of heat input and interpass temperature resulted in decrease of weld metal strength. This is because of the small amount of acicular ferrite, large columnar size and low recovery of alloying elements such as manganese and silicon. In addition to the microstructural change, weld metal toughness was also influenced by the deposition sequence. It increased with an increase of the amount of reheated weld metal.

Effect of Heterogeneous Microstructure on the Fracture Toughness of Weld Metal (용착금속의 파괴인성에 미치는 불균일 미세조직의 영향)

  • 정현호;김철만;김형식;김우식;홍성호
    • Journal of Welding and Joining
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    • v.17 no.2
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    • pp.36-43
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    • 1999
  • The effect of microstructure on the fracture toughness of multi pass weld metal has been investigated. The micromechanisms of fracture process are identified by in-situ scanning electron microscopy(SEM) fracture observation using single edge notched specimen. The notches of the in-situ fracture specimens were carefully located such that the ends of the notches were in the as-deposited top bead and the reheated weld metal respectively. The observation of in-situ fracture process for as-deposited top bead indicated that as strains are applied, microcracks are formed at the interfaces between soft proeutectoid ferrite and acicular ferrite under relatively low stress intensity factor. Then, the microcracks propagate easily along the proeutectoid ferrite phase, leading to final fracture. These findings suggest that proeutectoid ferrite plays an important role in reducing the toughness of the weld metal. On the other hand, reheated regions showed that the microcrack initiated at the notch tip grows along the localized shear bands under relatively high stress intensity factor, confirming that reheated area showing momogeneous and fine microstructure would be beneficial to the fracture resistance of weld metal.

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Al-7020의 Pulse-GMA용접에 관한 연구 2

  • 김재웅;허장욱;나석주;백운형
    • Journal of Welding and Joining
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    • v.6 no.4
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    • pp.54-62
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    • 1988
  • Major problems in welding Al-7020 include shrinkage, rpopositgy in welds and loss of strength in the heat affected zone. Thus it is important to examine the mechanical properties and reliability of welds. In this study, a series of experiments was carried out to determine the mechanical properties such as micro-hardness distribution, tensile strength, porosity and residual stress distribution of the Al-7020 weldment made by pulse-GMA welding. The resuts of the experiemnts are as folows. 1) The micro-hardness of weld metal and heat affected zone was lower than that of the base metal. 2) The tensile strength of the deposited metal was much lower than that of the base metal. 3) The porrosity in weld metal zone was negligible under the adopted conditsion of experiemnts. 4) The residual stress in the weld metal was lower than that of the heat affected zone, because the weld metal was softened. And the mciro-hardness distribution, the tensile strength and the residual stess distribution of the weldment in the as-welded condition were compared with those of the weldment after heat treatment.

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Chemical composition of SAW weld metal welded with metal cored composite wire (메탈코어드 콤포지트 와이어를 사용한 SAW 용접금속 성분변화)

  • Jeong, Dong-Hui;Bang, Guk-Su;Jeong, Hong-Cheol;Lee, Jong-Bong;Park, Cheol-Gyu
    • Proceedings of the KWS Conference
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    • 2007.11a
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    • pp.310-312
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    • 2007
  • Two metal cored composite wires were manufactured to satisfy AWS F7A4-EC-G specification. They were used to weld EH36 grade steels with three different fluxes. Variation of carbon, manganese, silicon, titanium, and boron contents which affect the weld metal strength in weld metal was investigated.

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Effect of Nitrogen Content on SAW Weld Metal Properties (SAW 용접금속 성질에 미치는 질소함량의 영향)

  • Byeon, Ji-Cheol;Bang, Guk-Su;Lee, Jong-Bong;An, Yeong-Ho
    • Proceedings of the KWS Conference
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    • 2005.06a
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    • pp.147-149
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    • 2005
  • Effect of nitrogen content on SAW weld metal properties were investigated. Weld metal nitrogen content increased with an increase of base metal nitrogen content due to dilution. High nitrogen content in weld metal resulted in high free nitrogen content, and consequently reduced impact toughness due to, mainly, strain aging effect.

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Electron beam weldability of Niobium (니오븀의 전자빔 용접성)

  • An, Byung-Hun;Yoon, Jong-Won;Kim, Sook-Hwan
    • Laser Solutions
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    • v.11 no.2
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    • pp.15-19
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    • 2008
  • Electron beam (EB) weldability of pure grade Nb sheet was studied. One of Nb sheets was as-annealed and the other was cold rolled. Microstructures, Vickers hardness, and transverse weld tensile test were carried out for the base metal, the heat affected zone (HAZ) and weld metal. In the case of the EB welds made using the annealed Nb sheeet, fine equiaxed grains and coarse grains were dominant at the base metal and the HAZ, respectively, and columnar grains were observed at the weld metal. For the EB welds made using the cold rolled Nb sheet, elongated grains in the rolling direction at the base metal, and the microstructures of the weld metal and the HAZ are similar to those of the EB welds made using the annealed Nb sheet, respectively. For both annealed and cold rolled Nb sheet, the width of the HAZs are unusually wide in spite of using high density heat source, i.e. electron beam, and the grain sizes of both HAZs are similar. When tensile test was carried out using the transverse weld specimens, the failure occurred at the HAZ for both EB welds made using Nb sheets annealed and cold rolled, respectively and the tensile strengths of both specimens were 161MPa. Vickers hardness of EB welds made using annealed Nb was 56-57 Hv at both base metal and weld metal, 52-53 Hv at the HAZ. On the other hand, Vickers hardness of EB welds made using cold rolled Nb was 97-99 Hv at the base metal, but the hardness values of weld metal were similar to those obtained at the weld metal of annealed Nb.

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Effects of Fluorides in the Flux Cored Wire on the Oxygen Content of Weld Metal (플럭스 코어드 와이어의 불화물 종류에 따른 용접금속 산소량의 변화)

  • Cha, Joo-hyeon;Bang, Kook-soo
    • Journal of Ocean Engineering and Technology
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    • v.33 no.6
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    • pp.615-619
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    • 2019
  • Various fluorides, i.e., CaF2, Na3AlF6, K2SiF6, MnF3, MgF2, were added to the flux cored wire, and their effects on the oxygen content of the weld metal were investigated. The investigation showed that the oxygen content of weld metal was not influenced by the type of metallic elements in the fluoride; rather, it was influenced by the stability of the arc during welding. While the wire containing MgF2 showed the most stable arc and the least amount of oxygen in the weld metal, the wire containing MnF3 showed the least stable arc and the greatest amount of oxygen. Since the deoxidation of the weld metal was not affected by the deoxidation elements, such as Ca and Mg, it was possible to predict the oxygen content of the weld metal by the equilibrium Si-Mn deoxidation thermodynamic model.

Effects of Heat Input and Preheat/interpass Temperature on Strength and Impact Toughness of Multipass Welded Low Alloy Steel Weld Metal (다층용접한 저합금 용접금속의 강도와 인성에 미치는 입열량 및 예열/패스간 온도의 영향)

  • Bang, Kook-soo;Jung, Ho-shin;Park, Chan
    • Journal of Ocean Engineering and Technology
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    • v.29 no.6
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    • pp.481-487
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    • 2015
  • The effects of the heat input and preheat/interpass temperatures on the tensile strength and impact toughness of multipass welded weld metal were investigated and interpreted in terms of the recovery of the alloying elements and microstructure. Increases in both the heat input and preheat/interpass temperatures decreased the tensile strength of the weld metal. A lower recovery of alloying elements, especially Mn and Si, and smaller area fraction of acicular ferrite in the weld metal were observed in higher heat input welding, resulting in a lower tensile strength. In contrast, only a microstructure difference was observed at a higher preheat/interpass temperature. The impact toughness of the weld metal gradually increased with an increase in the heat input because of the lower tensile strength. However, it decreased again when the heat input was larger than 45 kJ/cm because of the much smaller area fraction of acicular ferrite. No effect of the preheat/interpass temperature on the impact toughness was observed. The formation of a weld metal heat-affect zone showed little effect on the impact toughness of the weld metal in this experiment.