High-temperature oxidation behavior of additively manufactured IN625: Effect of microstructure and grain size

Chyrkin, A.; Gunduz, K.O.; Fedorova, I.; Sattari, M.; Visibile, A.; Halvarsson, M.; Froitzheim, J.; Stiller, K.

doi:10.1016/j.corsci.2022.110382

High-temperature oxidation of additively manufactured (AM) Ni-base alloy IN625 has been studied in air and Ar-5%H2-3%H2O at 900–1000 °C. AM material is found to oxidize faster than the conventionally manufactured (CM) IN625 due to severe intergranular oxidation observed in the former. The AM IN625 was heat treated at 1100–1250 °C and hot rolled at 980 °C in order to modify the AM microstructure, primarily grain size, and analyze its role in alloy oxidation behavior. Grain size is shown to affect overall oxidation kinetics but not the intergranular oxidation morphology.

High-temperature oxidation behavior of additively manufactured IN625: Effect of microstructure and grain size / A. Chyrkin, K.O. Gunduz, I. Fedorova, M. Sattari, A. Visibile, M. Halvarsson, J. Froitzheim, K. Stiller. - In: CORROSION SCIENCE. - ISSN 0010-938X. - 205:(2022 Aug 15), pp. 110382.1-110382.16. [10.1016/j.corsci.2022.110382]

High-temperature oxidation behavior of additively manufactured IN625: Effect of microstructure and grain size

Chyrkin, Anton;Gunduz, Kerem O.;Fedorova, Irina;Sattari, Mohammad;A. Visibile;Halvarsson, Mats;Froitzheim, Jan;Stiller, Krystyna

2022

Abstract

High-temperature oxidation of additively manufactured (AM) Ni-base alloy IN625 has been studied in air and Ar-5%H2-3%H2O at 900–1000 °C. AM material is found to oxidize faster than the conventionally manufactured (CM) IN625 due to severe intergranular oxidation observed in the former. The AM IN625 was heat treated at 1100–1250 °C and hot rolled at 980 °C in order to modify the AM microstructure, primarily grain size, and analyze its role in alloy oxidation behavior. Grain size is shown to affect overall oxidation kinetics but not the intergranular oxidation morphology.

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	Parole chiave
	
				Additive manufacturing; High-temperature oxidation; IN625; Intergranular corrosion; Ni-base alloys; SLM
			
	Settori scientifico-disciplinari dell'articolo (validi dal 09/05/2024)
	
				Settore CHEM-02/A - Chimica fisica
			
	Data di pubblicazione
	
				15-ago-2022
			
	Rivista in ANCE
	
				CORROSION SCIENCE
			
	DOI
	
				https://dx.doi.org/10.1016/j.corsci.2022.110382
			
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1141835

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