Corrosion Resistance of an AlCeMg/Stainless-Steel Reactive Bond

Jamieson Brechtl; Melanie Moses-Debusk; Michael S. Kesler; Yan Ru Lin; Ercan Cakmak; Tracie Lowe; Michael Thompson; James Keiser; David Weiss; Kashif Nawaz

doi:10.1007/978-3-031-80676-6_52

Corrosion Resistance of an AlCeMg/Stainless-Steel Reactive Bond

Jamieson Brechtl, Melanie Moses-Debusk, Michael S. Kesler, Yan Ru Lin, Ercan Cakmak, Tracie Lowe, Michael Thompson, James Keiser, David Weiss, Kashif Nawaz

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

A major issue for metal components in many industries is corrosion as it can substantially reduce their lifetime. This issue is especially problematic for materials used in heat exchanger applications. Al–Ce–Mg alloys, which exhibit corrosion resistance and can reactively bond with other metals, may be a viable solution to this problem. This investigation studied the corrosion behavior of Al–2Ce–6Mg (atomic percent)/stainless-steel (SS) reactive bond interfaces after full immersion in nitric, sulfuric, formic, and mixed acid for 267 h. This particular Al–Ce–Mg alloy was chosen due to its good castability. The results of scanning electron microscope characterization showed that reactive bond formations repeatedly occurred throughout the length of the casting in the as-cut samples and that these formations maintained a secure bonding between the alloy and the stainless-steel tubes. Transmission electron microscopy results showed that there was a clear compositional and microstructural transition across the reactive bond. The results of the immersion tests indicated that the nitric, sulfuric, and the mixed acid did not have an observably negative effect on the reactive bond structure. As for the sample exposed to formic acid only, noticable changes were seen in both the microstructural appearance and the elemental profile across the bond, suggesting that oxide formation occurred.

Original language	English
Title of host publication	Light Metals, 2025
Editors	Les Edwards
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	385-394
Number of pages	10
ISBN (Print)	9783031806759
DOIs	https://doi.org/10.1007/978-3-031-80676-6_52
State	Published - 2025
Event	Light Metals Symposium held at the TMS Annual Meeting and Exhibition, TMS 2025 - Las Vegas, United States Duration: Mar 23 2025 → Mar 27 2025

Publication series

Name	Minerals, Metals and Materials Series
ISSN (Print)	2367-1181
ISSN (Electronic)	2367-1696

Conference

Conference	Light Metals Symposium held at the TMS Annual Meeting and Exhibition, TMS 2025
Country/Territory	United States
City	Las Vegas
Period	03/23/25 → 03/27/25

Funding

This manuscript has been authored by UT-Battelle, LLC, under contract DE-AC05-00OR22725 with the US Department of Energy (DOE). The publisher acknowledges the US government license to provide public access under the DOE Public Access Plan (http://energy.gov/downloads/doe-public-access-plan). The authors would like to acknowledge the support provided by US Department of Energy BTO and the technology manager, Dr. Payam Delgoshaei. The technical support and assistance provided by of Tony Gehl, Charles Pierce, Jeffrey Taylor, Joshua Standifer, Tim Dyer, Brent Massey, and Robert Nettles is greatly appreciated. The authors are also grateful to the colleagues at Oak Ridge National Laboratory who provided useful comments and valuable influence on the research.

Keywords

Al–Ce alloys
Corrosion resistance
Electron microscopy
Heat exchangers

Access to Document

10.1007/978-3-031-80676-6_52

Cite this

Brechtl, J., Moses-Debusk, M., Kesler, M. S., Lin, Y. R., Cakmak, E., Lowe, T., Thompson, M., Keiser, J., Weiss, D., & Nawaz, K. (2025). Corrosion Resistance of an AlCeMg/Stainless-Steel Reactive Bond. In L. Edwards (Ed.), Light Metals, 2025 (pp. 385-394). (Minerals, Metals and Materials Series). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-031-80676-6_52

@inproceedings{833f895ada7c4065b15172959a6f2c2b,

title = "Corrosion Resistance of an AlCeMg/Stainless-Steel Reactive Bond",

abstract = "A major issue for metal components in many industries is corrosion as it can substantially reduce their lifetime. This issue is especially problematic for materials used in heat exchanger applications. Al–Ce–Mg alloys, which exhibit corrosion resistance and can reactively bond with other metals, may be a viable solution to this problem. This investigation studied the corrosion behavior of Al–2Ce–6Mg (atomic percent)/stainless-steel (SS) reactive bond interfaces after full immersion in nitric, sulfuric, formic, and mixed acid for 267 h. This particular Al–Ce–Mg alloy was chosen due to its good castability. The results of scanning electron microscope characterization showed that reactive bond formations repeatedly occurred throughout the length of the casting in the as-cut samples and that these formations maintained a secure bonding between the alloy and the stainless-steel tubes. Transmission electron microscopy results showed that there was a clear compositional and microstructural transition across the reactive bond. The results of the immersion tests indicated that the nitric, sulfuric, and the mixed acid did not have an observably negative effect on the reactive bond structure. As for the sample exposed to formic acid only, noticable changes were seen in both the microstructural appearance and the elemental profile across the bond, suggesting that oxide formation occurred.",

keywords = "Al–Ce alloys, Corrosion resistance, Electron microscopy, Heat exchangers",

author = "Jamieson Brechtl and Melanie Moses-Debusk and Kesler, \{Michael S.\} and Lin, \{Yan Ru\} and Ercan Cakmak and Tracie Lowe and Michael Thompson and James Keiser and David Weiss and Kashif Nawaz",

note = "Publisher Copyright: {\textcopyright} The Minerals, Metals \& Materials Society 2025.; Light Metals Symposium held at the TMS Annual Meeting and Exhibition, TMS 2025 ; Conference date: 23-03-2025 Through 27-03-2025",

year = "2025",

doi = "10.1007/978-3-031-80676-6\_52",

language = "English",

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Brechtl, J , Moses-Debusk, M , Kesler, MS , Lin, YR , Cakmak, E, Lowe, T, Thompson, M, Keiser, J, Weiss, D & Nawaz, K 2025, Corrosion Resistance of an AlCeMg/Stainless-Steel Reactive Bond. in L Edwards (ed.), Light Metals, 2025. Minerals, Metals and Materials Series, Springer Science and Business Media Deutschland GmbH, pp. 385-394, Light Metals Symposium held at the TMS Annual Meeting and Exhibition, TMS 2025, Las Vegas, United States, 03/23/25. https://doi.org/10.1007/978-3-031-80676-6_52

Corrosion Resistance of an AlCeMg/Stainless-Steel Reactive Bond. / Brechtl, Jamieson ; Moses-Debusk, Melanie ; Kesler, Michael S. et al.
Light Metals, 2025. ed. / Les Edwards. Springer Science and Business Media Deutschland GmbH, 2025. p. 385-394 (Minerals, Metals and Materials Series).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Corrosion Resistance of an AlCeMg/Stainless-Steel Reactive Bond

AU - Brechtl, Jamieson

AU - Moses-Debusk, Melanie

AU - Kesler, Michael S.

AU - Lin, Yan Ru

AU - Cakmak, Ercan

AU - Lowe, Tracie

AU - Thompson, Michael

AU - Keiser, James

AU - Weiss, David

AU - Nawaz, Kashif

PY - 2025

Y1 - 2025

N2 - A major issue for metal components in many industries is corrosion as it can substantially reduce their lifetime. This issue is especially problematic for materials used in heat exchanger applications. Al–Ce–Mg alloys, which exhibit corrosion resistance and can reactively bond with other metals, may be a viable solution to this problem. This investigation studied the corrosion behavior of Al–2Ce–6Mg (atomic percent)/stainless-steel (SS) reactive bond interfaces after full immersion in nitric, sulfuric, formic, and mixed acid for 267 h. This particular Al–Ce–Mg alloy was chosen due to its good castability. The results of scanning electron microscope characterization showed that reactive bond formations repeatedly occurred throughout the length of the casting in the as-cut samples and that these formations maintained a secure bonding between the alloy and the stainless-steel tubes. Transmission electron microscopy results showed that there was a clear compositional and microstructural transition across the reactive bond. The results of the immersion tests indicated that the nitric, sulfuric, and the mixed acid did not have an observably negative effect on the reactive bond structure. As for the sample exposed to formic acid only, noticable changes were seen in both the microstructural appearance and the elemental profile across the bond, suggesting that oxide formation occurred.

AB - A major issue for metal components in many industries is corrosion as it can substantially reduce their lifetime. This issue is especially problematic for materials used in heat exchanger applications. Al–Ce–Mg alloys, which exhibit corrosion resistance and can reactively bond with other metals, may be a viable solution to this problem. This investigation studied the corrosion behavior of Al–2Ce–6Mg (atomic percent)/stainless-steel (SS) reactive bond interfaces after full immersion in nitric, sulfuric, formic, and mixed acid for 267 h. This particular Al–Ce–Mg alloy was chosen due to its good castability. The results of scanning electron microscope characterization showed that reactive bond formations repeatedly occurred throughout the length of the casting in the as-cut samples and that these formations maintained a secure bonding between the alloy and the stainless-steel tubes. Transmission electron microscopy results showed that there was a clear compositional and microstructural transition across the reactive bond. The results of the immersion tests indicated that the nitric, sulfuric, and the mixed acid did not have an observably negative effect on the reactive bond structure. As for the sample exposed to formic acid only, noticable changes were seen in both the microstructural appearance and the elemental profile across the bond, suggesting that oxide formation occurred.

KW - Al–Ce alloys

KW - Corrosion resistance

KW - Electron microscopy

KW - Heat exchangers

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U2 - 10.1007/978-3-031-80676-6_52

DO - 10.1007/978-3-031-80676-6_52

M3 - Conference contribution

AN - SCOPUS:105006849482

SN - 9783031806759

T3 - Minerals, Metals and Materials Series

SP - 385

EP - 394

BT - Light Metals, 2025

A2 - Edwards, Les

PB - Springer Science and Business Media Deutschland GmbH

T2 - Light Metals Symposium held at the TMS Annual Meeting and Exhibition, TMS 2025

Y2 - 23 March 2025 through 27 March 2025

ER -

Corrosion Resistance of an AlCeMg/Stainless-Steel Reactive Bond

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