Juan Martínez Palacios scite author profile

Juan Martínez Palacios

4Publications

4Citation Statements Received

23Citation Statements Given

How they've been cited

How they cite others

Affiliations

National Institute for Aerospace Technology, Bizkaia Science and Technology Park, Tecnalia

Publications

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Modelización global del proceso de colada continua

Barco¹,

Palacios²,

Ojeda³

et al. 2005

REVMETAL

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Resumen En el proceso de colada continua contribuyen complicados fenómenos físicos con un marcado efecto en la calidad final del producto y en la productividad del proceso. Además, los distintos fenómenos físicos no aparecen de forma aislada, sino que interactúan unos con otros de manera acoplada, afectando a la calidad del semiproducto. El correcto diseño y ajuste es, por lo tanto, una tarea que requiere un gran conocimiento tanto de los distintos fenómenos que intervienen como de sus interacciones. En este trabajo se presenta un novedoso método de simulación que resuelve el proceso en su conjunto, siendo las variables del proceso las únicas condiciones de contomo. Mediante la utilización conjunta de herramientas comerciales (FLUENT y ABAQUS) y una serie de modelos de desarrollo propio se resuelven las interacciones entre los distintos fenómenos. Palabras clave Colada continua. Modelización. Fundentes. Solidificación. Refrigeración.

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In situ steel solidification imaging in continuous casting using magnetic induction tomography

Soleimani¹,

Spagnul

et al. 2020

Meas. Sci. Technol.

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The solidification process in continuous casting is a critical part of steel production. The speed and quality of the solidification process determines the quality of the final product. Computational fluid dynamics (CFD) simulations are often used to describe the process and to design its control system but, so far, there has been no tool that provides an online measurement of the solidification front of hot steel during the continuous casting process. This paper presents a novel magnetic induction tomography (MIT) solution, developed in the EU-funded SHELL-THICK project, to work in a real casting setting and to provide a real-time and reliable measurement of the shell thickness in a cross section of the strand. The new MIT system was installed at the end of the secondary cooling chamber of a casting unit and tested over several days in a real production process. MIT is able to create an internal map of the electrical conductivity of hot steel deep inside the billet. The image of electrical conductivity is then converted to a temperature profile that allows the measurement of the solid, mushy and liquid layers. In this study, such a conversion is done by synchronizing in one time step the MIT measurement and the thermal map generated with the actual process parameters available at that time. The MIT results were then compared with the results obtained with the CFD and thermal modelling of the industrial process. This is the first time in situ monitoring of the interior structure has been carried out during a real continuous casting.

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Detection of Transients in Steel Casting through Standard and AI-Based Techniques

Colla

Vannucci

Matarese

et al. 2011

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Comparison of deformation models for droplets in the vicinity of an airfoil

García-Magariño

Palacios

Mendi

2021

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