Abstract
A series of FeMnC alloys was quenched from 760° and 820°C. This treatment produced dual-phase microstructures in which the carbon contents of the martensite and ferrite phases were held constant while the percent martensite varied. The monotomic and cyclic properties of these steels were determined and the major influence on mechanical properties was found to be the percentage of martensite; both monotonic and cyclic stress levels increase linearly with martensite content. Carbon content of the phases also appears to play a role, particularly for cyclic properties. At constant martensite contents higher carbon levels result in better fatigue properties. Thus dual-phase steels with a higher alloy content (therefore able to be more slowly cooled resulting in higher carbon bearing martensite) may be preferable for cyclic applications.
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