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Effect of Tempering on the Bainitic Microstructure Evolution Correlated with the Hardness in a Low-Alloy Medium-Carbon Steel

Adam Ståhlkrantz, Peter Hedström, Niklas Sarius, Hans-Åke Sundberg, S. Kahl, Mattias Thuvander, Annika Borgenstam

2020Metallurgical and Materials Transactions A17 citationsDOIOpen Access PDF

Abstract

Abstract A low-alloy medium-carbon bainitic steel was isothermally tempered at 300 °C for up to 24 hours which led to a significant hardness decrease. In order to explain the decreasing hardness, extensive microstructural characterization using scanning and transmission electron microscopy, X-ray diffraction, and atom probe tomography was conducted. The experimental work was further supplemented by thermodynamic and kinetic simulations. It is found that the main underlying reason for the hardness reduction during tempering is related to dislocation annihilation, possibly also with corresponding changes in Cottrell atmospheres. On the other hand, cementite precipitate size, effective grain size of the bainite, and retained austenite fraction appear unchanged over the whole tempering cycle.

Topics & Concepts

CementiteBainiteTemperingMaterials scienceMetallurgyAtom probeAusteniteAlloyMicrostructureIsothermal processIndentation hardnessGrain sizeTransmission electron microscopyDislocationCarbon fibersAlloy steelComposite materialThermodynamicsComposite numberPhysicsNanotechnologyMicrostructure and Mechanical Properties of SteelsMetal Alloys Wear and PropertiesAdvanced Materials Characterization Techniques
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