Effect of Crystallization Conditions on the Microstructure, Crystal Structure, and Mechanical Properties of a Fe–Mn–C Alloy in Microvolumes

Effect of Crystallization Conditions on the Microstructure, Crystal Structure, and Mechanical Properties of a Fe–Mn–C Alloy in Microvolumes

The results of the comparative study of the microstructure, crystal structure, and mechanical properties in microvolumes of the Fe–25 wt % Mn–2 wt % С alloy crystallized from melt in different structural states—homogeneous and heterogeneous—were presented. The study was performed by means of scannin...

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Bibliographic Details
Published in:Physics of metals and metallography Vol. 123; no. 1; pp. 85 - 91
Main Authors: Chikova, O. A., Sinitsin, N. I., Chezganov, D. S.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 2022
Springer
Springer Nature B.V
Subjects:
Adhesive strength
Alloys
Analysis
Austenite
Chemistry and Materials Science
Comparative studies
Crystal structure
Crystallites
Crystallization
Crystals
Dendritic structure
Destruction
Electron backscatter diffraction
Ferrous alloys
Ingots
International economic relations
Manganese
Materials Science
Mechanical properties
Metallic Materials
Microstructure
Nanoindentation
Nonuniformity
Officials and employees
Specialty metals industry
Strength and Plasticity
Structure
X-ray spectroscopy
Young’s modulus
crystal structure
crystallization conditions
microstructure
Fe–Mn–C alloys
nanohardness
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Summary:The results of the comparative study of the microstructure, crystal structure, and mechanical properties in microvolumes of the Fe–25 wt % Mn–2 wt % С alloy crystallized from melt in different structural states—homogeneous and heterogeneous—were presented. The study was performed by means of scanning electron microscopy Energy Dispersive X-Ray Spectroscopy (EDX), electron backscatter diffraction (EBSD), and nanoindentation. The destruction of microheterogeneity in the Fe–Mn–C melts was established to lead to an increase in the dendrite parameter, the size of crystallites, and the fraction of low-angle boundaries under cooling and further crystallization. The surface of austenite dendrites was revealed to contain manganese-rich liquation layers, which had a thickness 〈 L 〉 = 60 µm and a manganese content of 35–40% and led to deformation nonuniformity of an ingot. The adhesion strength of the liquation layer to the body of an austenite dendrite was estimated as K int = 9.6–13.1 MPa m 0.5 and could not be a reason for the destruction of an ingot.
ISSN:0031-918X
1555-6190
DOI:10.1134/S0031918X22010021