Influence of chronological control of transformation on the microstructure and mechanical properties of complex phase steels

We examine the effect of transformation sequence on the microstructure evolution and mechanical prop-erties of complex phase steel consisting of bainite and martensite. Formation of martensite prior to bainite transformation provides uniform lath-type mixture of constituent phases, but preceding isother-mal bainite transformation produces carbon-enriched blocky martensite embedded in the bainite. Even though the presence of carbon-enriched blocky martensite increases the strength of the alloy more effec-tively, the impact toughness is significantly deteriorated with a small fraction of martensite. On the other hand, uniform lath-type mixture of martensite and bainite provides moderate decreased or conserved im-pact toughness at martensite fraction up to 70%, which be considered as an exceedingly beneficial option to enhance the strength of complex phase steel without compromising impact toughness. (c) 2021 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

Automated summary

The transformation sequence significantly impacts the microstructure evolution and mechanical properties of complex phase steel. The presence of carbon-enriched blocky martensite increases the strength of the alloy but decreases the impact toughness, while a uniform lath-type mixture of martensite and bainite can enhance the strength without compromising impact toughness.