Alloy Partitioning Effect on Strength and Toughness of κ-Carbide Strengthened Steels

Daniel M. Field, Krista R. Limmer, Billy C. Hornbuckle, Dean T. Pierce, Ken E. Moore, Katherine M. Sebeck

Research output: Contribution to journalArticlepeer-review

2 Scopus citations

Abstract

Alloy partitioning during heat treatment in a lightweight precipitation hardened steel was investigated using transmission electron microscopy and atom probe tomography. The mechanical properties are discussed as a function of the effect of solution treatment temperature and aging time, giving rise to variations in chemical modulation. A wrought lightweight steel alloy with a nominal composition of Fe-30Mn-9Al-1Si-1C-0.5Mo (wt. %) was solution-treated between 1173–1273 K and aged at 773 K. Lower solution treatment temperatures retained a finer grain size and accelerated age hardening response that also produced an improved work hardening behavior with a tensile strength of −1460 MPa at 0.4 true strain. Atom probe tomography indicated these conditions also had reduced modulation in the Si and Al content due to the reduced aging time preventing silicon from diffusing out of the κ-carbide into the austenite. This work provides the framework for heat-treating lightweight, age hardenable steels with high strength and improved energy absorption.

Original languageEnglish
Article number1670
JournalMaterials
Volume15
Issue number5
DOIs
StatePublished - Mar 1 2022

Keywords

  • Age-hardening steel
  • Alloy partitioning
  • Carbide
  • Low density steel

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