Título
Advanced direct extrusion process with real-time controllable extrusion parameters for microstructure optimization of magnesium alloysGrupo de investigación
Sistemas electrónicos de potencia aplicados al control de la energía eléctricaOtras instituciones
Helmholtz-Zentrum Hereonhttps://ror.org/04xysgw12
Versión
Version publicada
Derechos
© 2023 The AuthorsAcceso
Acceso abiertoVersión del editor
https://doi.org/10.1007/s12289-023-01758-zPublicado en
International Journal of Material Forming Vol. 16. N. 39, 2023Editor
SpringerPalabras clave
Processing control
Isothermal extrusion
Microstructure control
Infra-red camera ... [+]
Isothermal extrusion
Microstructure control
Infra-red camera ... [+]
Processing control
Isothermal extrusion
Microstructure control
Infra-red camera
Magnesium alloy [-]
Isothermal extrusion
Microstructure control
Infra-red camera
Magnesium alloy [-]
Resumen
The extrusion speed and deformation temperature are important factors affecting the microstructure development during the deformation. Microstructure development plays a crucial role in the performanc ... [+]
The extrusion speed and deformation temperature are important factors affecting the microstructure development during the deformation. Microstructure development plays a crucial role in the performance of the mechanical properties of materials. In direct extrusion, the homogeneous evolution of the microstructure in the length of the extruded bar could be affected due to its non-isothermal exit temperature evolution. Thus, a new set-up is suggested with real-time controllable speed and temperature to characterize the influence of temperature on the microstructure and obtain its homogeneous development for the magnesium alloy. During the extrusion, the temperature of the extruded bar is evaluated by using the infra-red camera, and the extrusion speed is simultaneously controlled in real-time depending on the temperature difference between a set temperature reference and the one obtained from the infra-red camera. This suggested set-up of extrusion is evaluated in terms of the microstructure and temperature evolution of the extruded bar. [-]
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- Artículos - Ingeniería [684]
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