Computational thermodynamics and kinetics-guided re-engineering of a high-performance tool steel

Zhou, T., Spartacus, G., Dahlström, A., Babu, R.P., Davydok, A., Hedström, P.

journal article

Computational thermodynamics and kinetics-guided re-engineering of a high-performance tool steel

Abstract

Targeting to obtain fine dispersions of nanoscale precipitates to enhance the mechanical properties of a high-performance tool steel, re-engineering of the alloy composition and heat treatment was guided by computational thermodynamics and kinetics. A prototype alloy was prepared using the designed chemistry and heat treatment. Thereafter, advanced microstructural characterization and mechanical testing confirmed the successful design to reach a high number density of (V, Mo)C precipitates with an average diameter of about 5 nm in the peak-hardened condition, after tempering the martensite at 600 °C for 2 h.

DOI Link to Publication

URL: https://publications.hereon.de/id/51642/
Authors:Zhou, T., Spartacus, G., Dahlström, A., Babu, R.P., Davydok, A., Hedström, P.
Year:2023
In: Scripta Materialia
Volume:232
Pages:115496
Publisher:Elsevier, Amsterdam
Type:journal article
ISBN: 1359-6462
ISSN: 1359-6462
Cite as: Zhou, T.; Spartacus, G.; Dahlström, A.; Babu, R.; Davydok, A.; Hedström, P.: Computational thermodynamics and kinetics-guided re-engineering of a high-performance tool steel. Scripta Materialia. 2023. vol. 232, 115496. DOI: 10.1016/j.scriptamat.2023.115496