Significant Hetero-Deformation Induced Strain Hardening in a Dual-Phase Low-Carbon Steel

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

3 Scopus Citations
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Author(s)

  • Yi LIU
  • Bo GAO
  • Ming YANG
  • Lirong XIAO
  • Jiaxin WANG
  • Jiaxin MA
  • Xiangjie CHEN
  • Hao ZHOU

Detail(s)

Original languageEnglish
Pages (from-to)1383–1392
Number of pages10
Journal / PublicationJOM
Volume75
Issue number5
Online published5 Oct 2022
Publication statusPublished - May 2023

Abstract

The strength improvement of low-carbon steel usually occurs at the expense of its ductility because the strain-hardening rate of ultrafine-grained material is relatively low. The heterostructured strategy is a new way to improve the strain-hardening rate in carbon steels, and is easy to achieve by phase transformation. In this work, intercritical annealing was performed on a low-carbon steel to produce a dual-phase heterostructure, which had higher strength and ductility than that of a uniform ferrite microstructure. An outstanding UTS of 960 MPa and a high uniform elongation of 16.5% were obtained in the heterostructured sample. In situ electron backscattered diffraction was performed to investigate the underlying deformation mechanism. Due to the mechanical incompatibility between ferrite and martensite, a much higher density of low-angle grain boundaries was found in the dual-phase heterostructured steel. Significant strain partitioning during deformation leads to a high density of geometrically necessary dislocations (GNDs) near zone boundaries. These GNDs provide hetero-deformation-induced strain hardening, eventually improving the combination of strength and ductility.

Citation Format(s)

Significant Hetero-Deformation Induced Strain Hardening in a Dual-Phase Low-Carbon Steel. / LIU, Yi; GAO, Bo; YANG, Ming et al.
In: JOM, Vol. 75, No. 5, 05.2023, p. 1383–1392 .

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review