Influence of z/w relation in Chill Block Melt Spinning (CBMS) process and analysis of thickness in ribbons

Artículo

Autoría

PAGNOLA, MARCELO RUBEN ; BARONE, MARCELO LUCAS ; Malmoria, Mariano Esteban Noe ; Sirkin, Hugo Ricardo Mario

Fecha

2015

Editorial y Lugar de Edición

Emerald Group Publishing Limited

Revista

Multidiscipline Modeling in Materials and Structures, vol. 11 (pp. 22-31) - ISSN 1573-6105
Emerald Group Publishing Limited

ISSN

1573-6105

Resumen Información suministrada por el agente en SIGEVA

Purpose: The purpose of this paper is to present an analysis over own and other authors data related to the process of Chill Block Melt Spinning (CBMS) and propose a model of analysis for interpreting. Design/methodology/approach: The methodology used in this work is to present the data analyzed by other authors, organize own data similarly to establish comparison, and established models and propose a possible physical processes interpretation. Findings: Similarity between own experimental data... Purpose: The purpose of this paper is to present an analysis over own and other authors data related to the process of Chill Block Melt Spinning (CBMS) and propose a model of analysis for interpreting. Design/methodology/approach: The methodology used in this work is to present the data analyzed by other authors, organize own data similarly to establish comparison, and established models and propose a possible physical processes interpretation. Findings: Similarity between own experimental data. with others data reported by other authors, both z/w ratio and the thicknesses of the films produced has been found. This allows us to establish an exponential decay of the parameters studied and possibly link it the Newtonian cooling to which the samples are subjected in its production. Research limitations/implications: This work is the first model set up to predict dimensions in design process by CBMS as a function of parameters of the ribbon production process. Practical implications: The prediction of the product dimensions, with adjusting the initial parameters, allows to improve the process of ribbon production, this saves tuning time of the machine and provides certainty in the molten material ejection. Social implications: The efficient production of magnetic materials lets save efforts in the raw material process preparing in magnetic cores for the energy sector. This, improves production besides benefit society by the final product and the energy savings. Originality/value: The value of this paper is to propose a model of analysis that allows standardize production parameters, and could even allow the use of these models in computer programs, process simulators in a more effective manner.

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Palabras Clave

SOLIDIFICATIONTHIN FILMS2D MODELLINGMAGNETIC MATERIALSPARAMETERS

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http://hdl.handle.net/11336/19921