Artículo
Study of recovery and first recrystallisation kinetics in CGO Fe3%Si steels using misorientation-derived parameters (EBSD)
Cruz Gandarilla, Francisco; Bolmaro, Raul Eduardo
; Mendoza León, H. F.; Salcedo Garrido, A. M.; Cabañas Moreno, J.G.
Fecha de publicación:
11/2019
Editorial:
Wiley Blackwell Publishing, Inc
Revista:
Journal Of Microscopy-oxford
ISSN:
0022-2720
Idioma:
Inglés
Tipo de recurso:
Artículo publicado
Clasificación temática:
Resumen
Many metallurgical processes produce characteristic dislocation accumulation, with heterogeneous spatial and orientation distributions and further development of microstructures after heat treatment. Recovery and recrystallisation behaviours are direct consequences of those uneven dislocation distributions. The Electron BackScatter Diffraction (EBSD) technique can be used for the characterisation of such microstructural features, including: Density of Geometrically Necessary Dislocations (GND), Kernel Average Misorientations (KAM), Grain Orientation Spread (GOS), Grain Average Misorientation (GAM), Grain Reference Orientation Deviation (GROD – Angle) and GOS/D, where D is an assumed characteristic grain length. Production of Fe3%Si alloys with a Goss texture, essential step in the manufacture of electrical transformers, requires several different processing stages, including the one called primary recrystallisation, a key process preceding abnormal grain growth. The structure of grains and different microstructural aspects of the recrystallisation stage will provide the conditions for development of the Goss orientation during abnormal grain growth. In the present work we use GOS, GAM, GROD, GOS/D, GND and KAM, calculated from EBSD scans performed on cold rolled Fe3%Si alloys subject to increasing heat treatment times, to characterise the kinetics of recovery and primary recrystallisation in an Fe3%Si alloy. Difficulties in the interpretation of these results may arise from the interactive competition between various microstructural features. Hardness measurements were also performed in order to validate recovery and recrystallisation evolution by classical methods. It was found that the global GOS (i.e. including grains of all orientations) shows changes which can be related to those observed in the hardness for high annealing temperatures but it is not sensitive to microstructure evolution occurring at low temperatures. Meanwhile, GND undergoes changes at all annealing temperatures and, remarkably, it responds to the recovery that GOS cannot detect at low temperatures. The GAM parameter seems to follow better the microhardness results. When grains belonging to different texture components are analysed, gamma fibre grains are the first to recrystallise and alpha fibre grains the last. Lay Description: Many metallurgical processes produce characteristic dislocation accumulation, with heterogeneous spatial and orientation distributions. Further development of such microstructures occurs with subsequent heat treatments. Recovery and recrystallisation behaviours are directly affected by consequences of those uneven dislocation distributions. The Electron Back Scatter Diffraction (EBSD) technique can be used for the characterisation of such microstructural features using different magnitudes that describe locally or globally misorientations between various locations in the material. In search of the best parameters [among them: Density of Geometrically Necessary Dislocations (GND), Kernel Average Misorientations (KAM), Grain Orientation Spread (GOS), Grain Average Misorientation (GAM), Grain Reference Orientation Deviation (GROD – Angle) and GOS/D, where D is an assumed characteristic grain length], we characterised the kinetics of the recovery during the 1st recrystallisation in an Fe3%Si alloy. It was found that the global GOS (i.e. including grains of all orientations) shows changes that can be related to the advance of recrystallisation on the other hand, the GND (KAM, GAM etc.) parameter seems to better follow the progress of recovery phenomenon. When grains belonging to different texture components are analysed, gamma fibre grains are the first to recrystallise and alpha fibre grains the last.
Palabras clave:
EBSD MISORIENTATIONS
,
PRIMARY RECRYSTALLISATION
,
RECOVERY
Archivos asociados
Licencia
Identificadores
Colecciones
Articulos(IFIR)
Articulos de INST.DE FISICA DE ROSARIO (I)
Articulos de INST.DE FISICA DE ROSARIO (I)
Citación
Cruz Gandarilla, Francisco; Bolmaro, Raul Eduardo; Mendoza León, H. F.; Salcedo Garrido, A. M.; Cabañas Moreno, J.G.; Study of recovery and first recrystallisation kinetics in CGO Fe3%Si steels using misorientation-derived parameters (EBSD); Wiley Blackwell Publishing, Inc; Journal Of Microscopy-oxford; 275; 3; 11-2019; 133-148
Compartir
Altmétricas