Abstract

Fe-based cast alloys, including cast irons and steels, have been used in service at a wide range of mechanical and thermal load in oxidizing environment. Special alloying practices can be used to improve high temperature performance of Fe-based cast alloys in an oxidizing atmosphere. At elevated temperatures, alloying elements can produce a protective interface layer which prevents oxidant penetration into the metal matrix. However, a combination of thermo-mechanical loads along with surface oxidation can decrease the materials integrity by destroying the stable protected interface limiting the range of working parameters and lifetime performance of the material. This overview aims to summarize the authors' published studies in co-authorship with colleagues and students, which covers analysis of high temperature performance of different cast-based materials, including alloyed ductile irons and austenitic steels. An analysis of cast components performance in harsh high temperature environments is addressed by incorporating the experimental data into a novel model was done. The role of alloying and specific casting features, such as microstructural dispersity and as-cast surface was discussed.

Department(s)

Materials Science and Engineering

Publication Status

Open Access

Keywords and Phrases

alloyed ductile iron; austenitic steel; high temperature oxidation; kinetics; thermal fatigue

International Standard Serial Number (ISSN)

2163-3193; 1939-5981

Document Type

Article - Journal

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 2025 Springer, All rights reserved.

Publication Date

01 Jan 2025

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Metallurgy Commons

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