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Experimental and Molecular Dynamic Study of Grain Refinement and Dislocation Substructure Evolution in HSLA and IF Steels after Severe Plastic Deformation

Krzysztof Muszka, Dawid Zych, Paulina Lisiecka-Graca, Łukasz Madej, Janusz Majta

2020Metals17 citationsDOIOpen Access PDF

Abstract

In this study, large-scale molecular dynamic simulations were performed to analyze the dislocation substructure interaction with various types of obstacles present in microalloyed steels during severe plastic deformation. Specifically, fully functional numerical models of the atomic upsetting test were developed, with particular emphasis on the presence of precipitates inside the microstructure grains. The obtained results compared with the microstructural tests, performed using Electron Backscatter Diffraction (EBSD) and Transmission Electron Microscope (TEM) techniques, allowed for a more accurate assessment of the microstructure refinement mechanisms by means of the in-situ recrystallization effect in the deformed samples subjected to the multi-axis compression using the MaxStrain system (Dynamic Systems Inc., New York, NY, USA).

Topics & Concepts

SubstructureElectron backscatter diffractionMaterials scienceMicrostructureDynamic recrystallizationDislocationSevere plastic deformationTransmission electron microscopyDeformation (meteorology)Recrystallization (geology)Composite materialMetallurgyStructural engineeringGeologyNanotechnologyEngineeringHot workingPaleontologyMicrostructure and mechanical propertiesMicrostructure and Mechanical Properties of SteelsHydrogen embrittlement and corrosion behaviors in metals
Experimental and Molecular Dynamic Study of Grain Refinement and Dislocation Substructure Evolution in HSLA and IF Steels after Severe Plastic Deformation | Litcius