Investigation on microstructure evolution and properties of duplex stainless steel joint multi-pass welded by using different methods

We investigated the microstructure, impact toughness, and pitting corrosion resistance of duplex stainless steel (DSS) welding joints fabricated by using gas tungsten arc welding (GTAW) and flux-cored arc welding (FCAW) with different shielding gas compositions. N2-supplemented shielding gas during...

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Published inMaterials & design Vol. 109; pp. 670 - 685
Main Authors Zhang, Zhiqiang, Jing, Hongyang, Xu, Lianyong, Han, Yongdian, Zhao, Lei
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 05.11.2016
Subjects
Austenite
Corrosion resistance
Dimpling
Duplex stainless steel
Fracture mechanics
Gas tungsten arc welding
Heat affected zone
Impact toughness
Microstructure
Pitting corrosion
Weld metal
Welding
Pitting corrosion
Duplex stainless steel
Impact toughness
Welding
Microstructure
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Abstract We investigated the microstructure, impact toughness, and pitting corrosion resistance of duplex stainless steel (DSS) welding joints fabricated by using gas tungsten arc welding (GTAW) and flux-cored arc welding (FCAW) with different shielding gas compositions. N2-supplemented shielding gas during the GTAW process significantly facilitated austenite formation and reduced amounts of chromium nitride (Cr2N) precipitation tendency, thereby resulting in an improvement in impact toughness. The heat-affected zone (HAZ) had relatively low toughness because of an insufficient austenite content and Cr2N and σ-phase precipitation. Dimple fracture was the main fracture mode of the weld metal. Large irregular inclusions resulting in discontinuous dimple fractures mainly contributed to the lowest level of toughness in the FCAW weld metal. The HAZ fracture mode was dominated by the ferrite quasi-cleavage fracture. The base metal exhibited a mixed fracture mode of alternating dimple and quasi-cleavage. Furthermore, the pitting resistance of the whole joint was predominated by the HAZ. The N2-supplemented shielding gas significantly improved the pitting resistance of the GTAW joint. The pits were prone to form in the secondary austenite and around Cr2N. Moreover, an abundance of inclusions in the FCAW weld metal resulted in adverse effects on the pitting resistance. [Display omitted] •2% N2-supplemented shielding gas improved toughness and pitting resistance.•Different duplex stainless steel welds exhibited various fracture mechanisms.•Cr2N and σ precipitation reduced toughness of heat-affected zone.•Inclusions had adverse effect on toughness and pitting resistance of weld metal.•Pitting corrosion occurred at γ2 and Cr-depleted region around Cr2N and σ phases.
AbstractList We investigated the microstructure, impact toughness, and pitting corrosion resistance of duplex stainless steel (DSS) welding joints fabricated by using gas tungsten arc welding (GTAW) and flux-cored arc welding (FCAW) with different shielding gas compositions. N2-supplemented shielding gas during the GTAW process significantly facilitated austenite formation and reduced amounts of chromium nitride (Cr2N) precipitation tendency, thereby resulting in an improvement in impact toughness. The heat-affected zone (HAZ) had relatively low toughness because of an insufficient austenite content and Cr2N and sigma -phase precipitation. Dimple fracture was the main fracture mode of the weld metal. Large irregular inclusions resulting in discontinuous dimple fractures mainly contributed to the lowest level of toughness in the FCAW weld metal. The HAZ fracture mode was dominated by the ferrite quasi-cleavage fracture. The base metal exhibited a mixed fracture mode of alternating dimple and quasi-cleavage. Furthermore, the pitting resistance of the whole joint was predominated by the HAZ. The N2-supplemented shielding gas significantly improved the pitting resistance of the GTAW joint. The pits were prone to form in the secondary austenite and around Cr2N. Moreover, an abundance of inclusions in the FCAW weld metal resulted in adverse effects on the pitting resistance.
We investigated the microstructure, impact toughness, and pitting corrosion resistance of duplex stainless steel (DSS) welding joints fabricated by using gas tungsten arc welding (GTAW) and flux-cored arc welding (FCAW) with different shielding gas compositions. N2-supplemented shielding gas during the GTAW process significantly facilitated austenite formation and reduced amounts of chromium nitride (Cr2N) precipitation tendency, thereby resulting in an improvement in impact toughness. The heat-affected zone (HAZ) had relatively low toughness because of an insufficient austenite content and Cr2N and σ-phase precipitation. Dimple fracture was the main fracture mode of the weld metal. Large irregular inclusions resulting in discontinuous dimple fractures mainly contributed to the lowest level of toughness in the FCAW weld metal. The HAZ fracture mode was dominated by the ferrite quasi-cleavage fracture. The base metal exhibited a mixed fracture mode of alternating dimple and quasi-cleavage. Furthermore, the pitting resistance of the whole joint was predominated by the HAZ. The N2-supplemented shielding gas significantly improved the pitting resistance of the GTAW joint. The pits were prone to form in the secondary austenite and around Cr2N. Moreover, an abundance of inclusions in the FCAW weld metal resulted in adverse effects on the pitting resistance. [Display omitted] •2% N2-supplemented shielding gas improved toughness and pitting resistance.•Different duplex stainless steel welds exhibited various fracture mechanisms.•Cr2N and σ precipitation reduced toughness of heat-affected zone.•Inclusions had adverse effect on toughness and pitting resistance of weld metal.•Pitting corrosion occurred at γ2 and Cr-depleted region around Cr2N and σ phases.
Author Xu, Lianyong
Zhao, Lei
Jing, Hongyang
Han, Yongdian
Zhang, Zhiqiang
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  fullname: Jing, Hongyang
  organization: School of Materials Science and Engineering, Tianjin University, Tianjin 300350, China
– sequence: 3
  givenname: Lianyong
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  fullname: Xu, Lianyong
  email: xulianyong@tju.edu.cn
  organization: School of Materials Science and Engineering, Tianjin University, Tianjin 300350, China
– sequence: 4
  givenname: Yongdian
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  fullname: Han, Yongdian
  organization: School of Materials Science and Engineering, Tianjin University, Tianjin 300350, China
– sequence: 5
  givenname: Lei
  surname: Zhao
  fullname: Zhao, Lei
  organization: School of Materials Science and Engineering, Tianjin University, Tianjin 300350, China
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Impact toughness
Welding
Microstructure
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Snippet We investigated the microstructure, impact toughness, and pitting corrosion resistance of duplex stainless steel (DSS) welding joints fabricated by using gas...
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SubjectTerms Austenite
Corrosion resistance
Dimpling
Duplex stainless steel
Fracture mechanics
Gas tungsten arc welding
Heat affected zone
Impact toughness
Microstructure
Pitting corrosion
Weld metal
Welding
Title Investigation on microstructure evolution and properties of duplex stainless steel joint multi-pass welded by using different methods
URI https://dx.doi.org/10.1016/j.matdes.2016.07.110
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