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Metals and Materials International

Erschienen in:

07.03.2022

Heat-Affected Zone Characteristics with Post-Weld Heat Treatments in Austenitic Fe–Mn–Al–C Lightweight Steels

verfasst von: Seonghoon Jeong, Gitae Park, Bongyoon Kim, Joonoh Moon, Seong-Jun Park, Changhee Lee

Erschienen in: Metals and Materials International | Ausgabe 10/2022

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Abstract

This study investigates the relationship between the mechanical characteristics and microstructural transitions in heat-affected zone (HAZ) of various austenitic Fe–Mn–Al–C lightweight steels. The analysis was conducted on the simulated HAZ samples with various post-weld heat treatment (PWHT) conditions. The base steel was prepared via vacuum induction melting, hot rolling, and solution treatment prior to water quenching. Gleeble simulator was used to manufacture the simulated HAZs, and the samples were subjected to PWHT with various durations by electric furnace. To understand the effects of thermal history on the mechanical characteristics, ultimate tensile tests, micro-hardness tests, and cryogenic Charpy impact toughness tests were conducted, and microstructural analyses were conducted by optical microscopy, scanning electron microscopy, X-ray diffraction analysis, and transmission electron microscopy. The experimental results confirmed the influence of Al content on the austenitic Fe–Mn–Al–C lightweight steels, which promotes κ-carbide precipitation, both in the austenite matrix and grain boundaries, thereby increasing the strength and hardness while decreasing the ductility and toughness. Each mechanical property showed a linear relationship with the growth kinetics of the κ-carbide particles. However, abnormal coarsening of the inter-granular κ-carbide during welding and PWHT caused severe embrittlement, regardless of thermal history, by acting as inter-granular crack propagation channels. The experimental results suggest that Fe–Mn–Al–C lightweight steels should be developed with controlling the alloying elements to overcome HAZ discontinuity and mechanical property degradation occurring by intra- and inter-granular κ-carbide precipitation.

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Vorheriger Artikel Incremental Tube Forming Process with a Novel Free Rotating Bearing Tool Tip: Experiment and FE Modeling with Anisotropic Plasticity Model

Nächster Artikel Insight into the Dynamic Recrystallization Behavior and Microstructure Evolution of MP159 Superalloy During Hot Deformation

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Titel: Heat-Affected Zone Characteristics with Post-Weld Heat Treatments in Austenitic Fe–Mn–Al–C Lightweight Steels
verfasst von: Seonghoon Jeong
Gitae Park
Bongyoon Kim
Joonoh Moon
Seong-Jun Park
Changhee Lee
Publikationsdatum: 07.03.2022
Verlag: The Korean Institute of Metals and Materials
Erschienen in: Metals and Materials International / Ausgabe 10/2022
Print ISSN: 1598-9623
Elektronische ISSN: 2005-4149
DOI: https://doi.org/10.1007/s12540-021-01133-0

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