Evaluation of Structure and Properties of COR 13/4 (GX4CrNi13-4) Tungsten Inert Gas-Welded Steel

The effect of tungsten inert gas welding in combination with high alloyed filler materials on the microstructure and mechanical properties of COR 13/4 martensitic stainless steel were investigated by mechanical testing and metallography observation. The experimental results showed that using filler...

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Published in	Journal of materials engineering and performance Vol. 34; no. 16; pp. 17015 - 17026
Main Authors	Bricín, David, Kříž, Antonín, Jansa, Zdeněk, Špirit, Zbyněk, Strejcius, Josef, Beňasová, Hana, Pakula, Daniel, Kolařík, Ladislav, Svobodová, Jaroslava, Knaislová, Anna
Format	Journal Article
Language	English
Published	New York Springer US 01.08.2025
Subjects	Characterization and Evaluation of Materials Chemistry and Materials Science Corrosion and Coatings Engineering Design Materials Science Original Research Article Quality Control Reliability Safety and Risk Tribology martensitic steel repair welding tungsten inert gas welding hydropower plants GX4CrNi13-4
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ISSN	1059-9495 1544-1024
DOI	10.1007/s11665-024-10478-7

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Abstract	The effect of tungsten inert gas welding in combination with high alloyed filler materials on the microstructure and mechanical properties of COR 13/4 martensitic stainless steel were investigated by mechanical testing and metallography observation. The experimental results showed that using filler materials with higher Cr and Cr-Mo content increased the δ-ferrite content in the fusion zone. Higher Ni and N content in the filler material led to an increase in the retained austenite content in the heat-affected zone (HAZ). Higher C concentration in filler material then led to dramatically reduced impact toughness of the weld due to embrittlement of martensite structure and the presence of M 23 C 6 and σ phase in the weld and along the fusion line. The phase composition close to the fusion zone affected the wear rate, tensile properties and hardness. The results show a lower wear rate for samples with a lower amount of martensite and a higher amount of Fe 9.7 Mo 0.3 and Fe 10.8 Ni. The ultimate tensile strength (UTS) results show that the presence of the Fe 9.7 Mo 0.3 or Fe 10.8 Ni phase in HAZ contributed to an increase in the UTS value compared with the presence of the martensite phase.
AbstractList	The effect of tungsten inert gas welding in combination with high alloyed filler materials on the microstructure and mechanical properties of COR 13/4 martensitic stainless steel were investigated by mechanical testing and metallography observation. The experimental results showed that using filler materials with higher Cr and Cr-Mo content increased the δ-ferrite content in the fusion zone. Higher Ni and N content in the filler material led to an increase in the retained austenite content in the heat-affected zone (HAZ). Higher C concentration in filler material then led to dramatically reduced impact toughness of the weld due to embrittlement of martensite structure and the presence of M 23 C 6 and σ phase in the weld and along the fusion line. The phase composition close to the fusion zone affected the wear rate, tensile properties and hardness. The results show a lower wear rate for samples with a lower amount of martensite and a higher amount of Fe 9.7 Mo 0.3 and Fe 10.8 Ni. The ultimate tensile strength (UTS) results show that the presence of the Fe 9.7 Mo 0.3 or Fe 10.8 Ni phase in HAZ contributed to an increase in the UTS value compared with the presence of the martensite phase.
Author	Kříž, Antonín Pakula, Daniel Svobodová, Jaroslava Bricín, David Kolařík, Ladislav Jansa, Zdeněk Strejcius, Josef Knaislová, Anna Špirit, Zbyněk Beňasová, Hana
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SubjectTerms	Characterization and Evaluation of Materials Chemistry and Materials Science Corrosion and Coatings Engineering Design Materials Science Original Research Article Quality Control Reliability Safety and Risk Tribology
Title	Evaluation of Structure and Properties of COR 13/4 (GX4CrNi13-4) Tungsten Inert Gas-Welded Steel
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