Retention of Delta Ferrite in the Heat-Affected Zone of Grade 91 Steel Dissimilar Metal Welds

This study aimed to determine the mechanism of δ -ferrite retention in the coarse-grained HAZ (CGHAZ) of Grade 91 steel dissimilar metal welds (DMWs) with Ni-based filler metals. This phenomenon was investigated in four DMWs made with cold-wire gas tungsten arc process using Alloys 625, 617, 82, and...

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Published in	Metallurgical and materials transactions. A, Physical metallurgy and materials science Vol. 50; no. 6; pp. 2732 - 2747
Main Authors	Kuper, Michael W., Alexandrov, Boian T.
Format	Journal Article
Language	English
Published	New York Springer US 15.06.2019 Springer Nature B.V
Subjects	Carbon Characterization and Evaluation of Materials Chemical potential Chemistry and Materials Science Chromium molybdenum steels Delta ferrite Depletion Dissimilar metals Dwell time Filler metals Heat affected zone High temperature Martensite Materials Science Metallic Materials Metallurgy Metals Nanotechnology Nickel base alloys Organic chemistry Retention Structural Materials Superalloys Surfaces and Interfaces Thermal conductivity Thin Films
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Abstract	This study aimed to determine the mechanism of δ -ferrite retention in the coarse-grained HAZ (CGHAZ) of Grade 91 steel dissimilar metal welds (DMWs) with Ni-based filler metals. This phenomenon was investigated in four DMWs made with cold-wire gas tungsten arc process using Alloys 625, 617, 82, and P87 filler metals. A narrow band of δ -ferrite grains was identified in the CGHAZ in all welds. It was hypothesized that δ -ferrite retention was caused by local carbon depletion in the CGHAZ, which was validated through extensive thermodynamic and kinetic simulations and metallurgical characterization. Carbon diffusion across the fusion boundary was driven by the carbon chemical potential gradient between Grade 91 steel and the Ni-based filler metals, which was facilitated by long high-temperature dwell times resulting from a difference in heat capacity and thermal conductivity between the base and filler metals. A linear relationship was established between the amounts of retained δ ferrite and the predicted carbon depletion in the CGHAZ of each DMW. Alloy 625 filler metal generated the largest extent of carbon depletion and the most retained δ ferrite, followed by Alloys 617, 82, and P87. The carbon depletion resulted in local softening of the CGHAZ martensite.
AbstractList	This study aimed to determine the mechanism of δ-ferrite retention in the coarse-grained HAZ (CGHAZ) of Grade 91 steel dissimilar metal welds (DMWs) with Ni-based filler metals. This phenomenon was investigated in four DMWs made with cold-wire gas tungsten arc process using Alloys 625, 617, 82, and P87 filler metals. A narrow band of δ-ferrite grains was identified in the CGHAZ in all welds. It was hypothesized that δ-ferrite retention was caused by local carbon depletion in the CGHAZ, which was validated through extensive thermodynamic and kinetic simulations and metallurgical characterization. Carbon diffusion across the fusion boundary was driven by the carbon chemical potential gradient between Grade 91 steel and the Ni-based filler metals, which was facilitated by long high-temperature dwell times resulting from a difference in heat capacity and thermal conductivity between the base and filler metals. A linear relationship was established between the amounts of retained δ ferrite and the predicted carbon depletion in the CGHAZ of each DMW. Alloy 625 filler metal generated the largest extent of carbon depletion and the most retained δ ferrite, followed by Alloys 617, 82, and P87. The carbon depletion resulted in local softening of the CGHAZ martensite. This study aimed to determine the mechanism of δ -ferrite retention in the coarse-grained HAZ (CGHAZ) of Grade 91 steel dissimilar metal welds (DMWs) with Ni-based filler metals. This phenomenon was investigated in four DMWs made with cold-wire gas tungsten arc process using Alloys 625, 617, 82, and P87 filler metals. A narrow band of δ -ferrite grains was identified in the CGHAZ in all welds. It was hypothesized that δ -ferrite retention was caused by local carbon depletion in the CGHAZ, which was validated through extensive thermodynamic and kinetic simulations and metallurgical characterization. Carbon diffusion across the fusion boundary was driven by the carbon chemical potential gradient between Grade 91 steel and the Ni-based filler metals, which was facilitated by long high-temperature dwell times resulting from a difference in heat capacity and thermal conductivity between the base and filler metals. A linear relationship was established between the amounts of retained δ ferrite and the predicted carbon depletion in the CGHAZ of each DMW. Alloy 625 filler metal generated the largest extent of carbon depletion and the most retained δ ferrite, followed by Alloys 617, 82, and P87. The carbon depletion resulted in local softening of the CGHAZ martensite.
Author	Alexandrov, Boian T. Kuper, Michael W.
Author_xml	– sequence: 1 givenname: Michael W. surname: Kuper fullname: Kuper, Michael W. email: kuper.8@osu.edu organization: The Ohio State University – sequence: 2 givenname: Boian T. surname: Alexandrov fullname: Alexandrov, Boian T. organization: The Ohio State University
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Snippet	This study aimed to determine the mechanism of δ -ferrite retention in the coarse-grained HAZ (CGHAZ) of Grade 91 steel dissimilar metal welds (DMWs) with... This study aimed to determine the mechanism of δ-ferrite retention in the coarse-grained HAZ (CGHAZ) of Grade 91 steel dissimilar metal welds (DMWs) with...
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SubjectTerms	Carbon Characterization and Evaluation of Materials Chemical potential Chemistry and Materials Science Chromium molybdenum steels Delta ferrite Depletion Dissimilar metals Dwell time Filler metals Heat affected zone High temperature Martensite Materials Science Metallic Materials Metallurgy Metals Nanotechnology Nickel base alloys Organic chemistry Retention Structural Materials Superalloys Surfaces and Interfaces Thermal conductivity Thin Films
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Title	Retention of Delta Ferrite in the Heat-Affected Zone of Grade 91 Steel Dissimilar Metal Welds
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