ABSTRACT
Hot rolled ultra-high strength steel with a gauge range of 3–10 mm (0.118¨–0.395¨) was developed using conventional slab caster and hot strip mill technology at Stelco Inc. (Stelco) to meet standard industry specifications along with additional unique customer requirements. The effects of chemical composition, steelmaking and hot rolling process parameters on microstructure, precipitation behaviour, and mechanical properties were studied. Both Grade 90 (620 Mpa, Stelco trademarked STELMAXTM90) and Grade 100 (690 MPa, STELMAXTM100) products met strength requirements in longitudinal and transverse directions. Furthermore, these ultra-high strength steels exhibited excellent ductility, impact toughness, edge stretchability and bendability. The enhanced mechanical properties are the results of chemistry design and carefully controlling austenite/ferrite grain size and precipitation behaviour at different processing stages. These newly developed steels have extensive applications in automobile safety components, light-weight construction, piping/tubing and offshore structures.
Acknowledgements
The authors acknowledge the Canadian Centre for Electron Microscopy (CCEM) at McMaster University, Hot Strip Mill Operation Team and Quality Assurance Department at Stelco Inc. (Nanticoke, ON, Canada).
Disclosure statement
No potential conflict of interest was reported by the authors.
ORCID
Tihe Zhou http://orcid.org/0000-0002-0452-5520