Influence of the prior athermal martensite on the mechanical response of advanced bainitic steel

The accelerated formation of bainite in presence of martensite is opening a new processing window for the steel industry. However, for a feasible industrial implementation, it is necessary to determine the mechanical behaviour of the steels developed under such conditions. This study focuses on anal...

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Bibliographic Details
Published in:Materials science & engineering. A, Structural materials : properties, microstructure and processing Structural materials : properties, microstructure and processing, 2018-09, Vol.735, p.343-353
Main Authors: Navarro-López, A., Hidalgo, J., Sietsma, J., Santofimia, M.J.
Format: Article
Language:English
Subjects:
Bainite
Bainitic ferrite
Bainitic steel
Bainitic transformations
Heat treatment
Iron and steel industry
Isothermal treatments
Martensite
Mechanical analysis
Mechanical properties
Mechanical response
Microhardness
Multiphase steels
Prior athermal martensite
Silicon steels
Steel industry
Strain hardening
Strengthening mechanisms
Tensile tests
Ultimate tensile strength
Yield stress
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Summary:The accelerated formation of bainite in presence of martensite is opening a new processing window for the steel industry. However, for a feasible industrial implementation, it is necessary to determine the mechanical behaviour of the steels developed under such conditions. This study focuses on analysing the effects of the formation of athermal martensite, followed by the formation of bainitic ferrite, on the mechanical response of a low-C high-Si steel. For this purpose, microhardness measurements and tensile tests have been performed on specimens that were thermally treated either above or below the martensite-start temperature (Ms). Specimens isothermally treated below Ms exhibit a good combination of mechanical properties, comparable with that of the specimens heat treated by conventional treatments above Ms, where there was no prior formation of martensite. Investigations show an increase of the yield stress and a decrease of the ultimate tensile strength as the isothermal holding temperature is decreased below Ms. The formation of prior athermal martensite and its tempering during the isothermal holding leads to the strengthening of the specimens isothermally heat treated below Ms at the expense of slightly decreasing their strain hardening capacity.
ISSN:0921-5093
1873-4936
DOI:10.1016/j.msea.2018.08.047