austenite fraction
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Author(s):  
Amir Baghdadchi ◽  
Vahid A. Hosseini ◽  
Kjell Hurtig ◽  
Leif Karlsson

Abstract Avoiding low austenite fractions and nitride formation are major challenges in laser welding of duplex stainless steels (DSS). The present research aims at investigating efficient means of promoting austenite formation during autogenous laser welding of DSS without sacrificing productivity. In this study, effects of shielding gas and laser reheating were investigated in welding of 1.5-mm-thick FDX 27 (UNS S82031) DSS. Four conditions were investigated: Ar-shielded welding, N2-shielded welding, Ar-shielded welding followed by Ar-shielded laser reheating, and N2-shielded welding followed by N2-shielded laser reheating. Optical microscopy, thermodynamic calculations, and Gleeble heat treatment were performed to study the evolution of microstructure and chemical composition. The austenite fraction was 22% for Ar-shielded and 39% for N2-shielded as-welded conditions. Interestingly, laser reheating did not significantly affect the austenite fraction for Ar shielding, while the austenite fraction increased to 57% for N2-shielding. The amount of nitrides was lower in N2-shielded samples compared to in Ar-shielded samples. The same trends were also observed in the heat-affected zone. The nitrogen content of weld metals, evaluated from calculated equilibrium phase diagrams and austenite fractions after Gleeble equilibrating heat treatments at 1100 °C, was 0.16% for N2-shielded and 0.11% for Ar-shielded welds, confirming the importance of nitrogen for promoting the austenite formation during welding and especially reheating. Finally, it is recommended that combining welding with pure nitrogen as shielding gas and a laser reheating pass can significantly improve austenite formation and reduce nitride formation in DSS laser welds.


Metals ◽  
2019 ◽  
Vol 9 (3) ◽  
pp. 373 ◽  
Author(s):  
Tuomo Nyyssönen ◽  
Olli Oja ◽  
Petri Jussila ◽  
Ari Saastamoinen ◽  
Mahesh Somani ◽  
...  

The quenching and partitioning response following intercritical annealing was investigated for three lean TRIP-type high-Al steel compositions. Depending on the intercritical austenite fraction following annealing, the steels assumed either a ferrite/martensite/retained austenite microstructure or a multiphase structure with ferritic, bainitic and martensitic constituents along with retained austenite. The amount of retained austenite was found to correlate with the initial quench temperature and, depending on the intercritical annealing condition prior to initial quenching, with the uniform and ultimate elongations measured in tensile testing.


2019 ◽  
Vol 97 ◽  
pp. 605-616 ◽  
Author(s):  
Yongjian Zhang ◽  
Weijun Hui ◽  
Xiaoli Zhao ◽  
Cunyu Wang ◽  
Wenquan Cao ◽  
...  

2009 ◽  
Vol 518 (1-2) ◽  
pp. 89-96 ◽  
Author(s):  
A. Kammouni ◽  
W. Saikaly ◽  
M. Dumont ◽  
C. Marteau ◽  
X. Bano ◽  
...  

2009 ◽  
Vol 61 (2) ◽  
pp. 149-152 ◽  
Author(s):  
A.J. Clarke ◽  
J.G. Speer ◽  
D.K. Matlock ◽  
F.C. Rizzo ◽  
D.V. Edmonds ◽  
...  

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