Metals (Dec 2021)

Microstructure and Strengthening Mechanisms in an HSLA Steel Subjected to Tempforming

  • Anastasiia Dolzhenko,
  • Alexander Pydrin,
  • Sergey Gaidar,
  • Rustam Kaibyshev,
  • Andrey Belyakov

DOI
https://doi.org/10.3390/met12010048
Journal volume & issue
Vol. 12, no. 1
p. 48

Abstract

Read online

An effect of tempforming on the microstructure, the carbide precipitation, and the strengthening mechanisms of high-strength low-alloyed steel has been analyzed. The quenched steel was subjected to 1 h tempering at a temperature of 873 K, 923 K, or 973 K followed by plate rolling at the same temperature. Tempforming resulted in the formation of an ultrafine grained lamellar-type microstructure with finely dispersed carbides of (Nb,V)C, Fe3C and Cr23C6. A decrease in tempforming temperature resulted in a reduction of the transverse grain size from 950 nm to 350 nm. Correspondingly, the size of Fe3C/Cr23C6 particles decreased from 90 nm to 40 nm while the size of (Nb,V)C particles decreased from 17 nm to 4 nm. Refining the tempformed microstructure with a decrease in thetempforming temperature provided an increase in the yield strength from 690 MPa to 1230 MPa.

Keywords