Recent Advances in κ-Carbide Precipitation Behavior and Its Influence on Mechanical Properties in Austenite-Based Fe-Mn-Al-C Lightweight Steels
Yanjie Mou, Kai Lei, Jiahao Li, Xiaofei Guo, Jianwen Fan, Chundong Hu, Han Dong

TL;DR
This paper reviews how κ-carbide precipitation affects the strength and toughness of lightweight Fe-Mn-Al-C steels used in automotive applications.
Contribution
The paper provides a systematic review of κ-carbide behavior and strategies to optimize mechanical properties through composition and processing.
Findings
Coarse κ-carbides at grain boundaries reduce toughness, while nanoscale κ’-carbides enhance strength and ductility.
Al and C promote κ’-carbide formation, while Mn suppresses it.
Rapid cooling and aging treatments influence κ-carbide distribution and mechanical performance.
Abstract
Austenitic Fe-Mn-Al-C lightweight steels have attracted considerable interest for automotive applications due to their exceptional specific strength, where κ-carbides precipitation critically influences mechanical properties. This review systematically examines the crystal structure, classification, and precipitation kinetics of κ-carbides, emphasizing their spatial distribution-dependent effects: coarse κ-carbides at austenite grain boundaries induce embrittlement and degrade toughness, while nanoscale κ’-carbides within grains enhance strength and ductility through dislocation interactions (e.g., Orowan bypassing and shearing), activating deformation mechanisms such as Dynamic Slip Band Refinement (DSBR), Shear Band-Induced Plasticity (SIP), and Microband-Induced Plasticity (MBIP). Thermodynamic calculations guide alloy design to ensure a single-phase austenite structure at the…
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Taxonomy
TopicsMicrostructure and Mechanical Properties of Steels · Metal Alloys Wear and Properties · Powder Metallurgy Techniques and Materials
