Thermal Microstructural Multiscale Simulation of Solidification and Eutectoid Transformation of Hypereutectic Gray Cast Iron

Although the gray cast iron solidification process has been the subject of several modeling studies, almost all available models appear to deal with only the more widely used hypoeutectic compositions. Models related to hypereutectic gray iron compositions with lamellar (or flake) graphite, and in p...

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Published in	Metallurgical and materials transactions. A, Physical metallurgy and materials science Vol. 45; no. 9; pp. 3954 - 3970
Main Authors	Urrutia, Alejandro, Celentano, Diego J., Gunasegaram, Dayalan R., Deeva, Natalia
Format	Journal Article
Language	English
Published	Boston Springer US 01.08.2014 Springer Springer Nature B.V
Subjects	Applied sciences Cast iron Characterization and Evaluation of Materials Chemistry and Materials Science Eutectoid composition Eutectoid temperature Exact sciences and technology Ferrite Graphite Gray iron Materials Science Mathematical models Metallic Materials Metallurgy Metals. Metallurgy Microstructure Nanotechnology Solidification Structural Materials Surfaces and Interfaces Thin Films Transformations Micro Model Ferrite Pearlite Cementite Austenite Simulation Microstructure Grey iron Solidification
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Abstract	Although the gray cast iron solidification process has been the subject of several modeling studies, almost all available models appear to deal with only the more widely used hypoeutectic compositions. Models related to hypereutectic gray iron compositions with lamellar (or flake) graphite, and in particular for the proeutectic and eutectoid zones, are hard to find in the open literature. Hence, in the present work, a thermal microstructural multiscale model is proposed to describe the solidification and eutectoid transformation of a slightly hypereutectic composition leading to lamellar graphite gray iron morphology. The main predictions were: (a) temperature evolutions; (b) fractions of graphite, ferrite, and pearlite; (c) density; and (d) size of ferrite, pearlite, and gray eutectic grains; (e) average interlamellar graphite spacing; and (f) its thickness. The predicted cooling curves and fractions for castings with two different compositions and two different pouring temperatures were validated using experimental data. The differences between this model and existing models for hypoeutectic compositions are discussed.
AbstractList	Although the gray cast iron solidification process has been the subject of several modeling studies, almost all available models appear to deal with only the more widely used hypoeutectic compositions. Models related to hypereutectic gray iron compositions with lamellar (or flake) graphite, and in particular for the proeutectic and eutectoid zones, are hard to find in the open literature. Hence, in the present work, a thermal microstructural multiscale model is proposed to describe the solidification and eutectoid transformation of a slightly hypereutectic composition leading to lamellar graphite gray iron morphology. The main predictions were: (a) temperature evolutions; (b) fractions of graphite, ferrite, and pearlite; (c) density; and (d) size of ferrite, pearlite, and gray eutectic grains; (e) average interlamellar graphite spacing; and (f) its thickness. The predicted cooling curves and fractions for castings with two different compositions and two different pouring temperatures were validated using experimental data. The differences between this model and existing models for hypoeutectic compositions are discussed. Although the gray cast iron solidification process has been the subject of several modeling studies, almost all available models appear to deal with only the more widely used hypoeutectic compositions. Models related to hypereutectic gray iron compositions with lamellar (or flake) graphite, and in particular for the proeutectic and eutectoid zones, are hard to find in the open literature. Hence, in the present work, a thermal microstructural multiscale model is proposed to describe the solidification and eutectoid transformation of a slightly hypereutectic composition leading to lamellar graphite gray iron morphology. The main predictions were: (a) temperature evolutions; (b) fractions of graphite, ferrite, and pearlite; (c) density; and (d) size of ferrite, pearlite, and gray eutectic grains; (e) average interlamellar graphite spacing; and (f) its thickness. The predicted cooling curves and fractions for castings with two different compositions and two different pouring temperatures were validated using experimental data. The differences between this model and existing models for hypoeutectic compositions are discussed.[PUBLICATION ABSTRACT]
Author	Gunasegaram, Dayalan R. Celentano, Diego J. Deeva, Natalia Urrutia, Alejandro
Author_xml	– sequence: 1 givenname: Alejandro surname: Urrutia fullname: Urrutia, Alejandro organization: Departamento de Ingeniería Mecánica y Metalúrgica, Pontificia Universidad Católica de Chile – sequence: 2 givenname: Diego J. surname: Celentano fullname: Celentano, Diego J. email: dcelentano@ing.puc.cl organization: Departamento de Ingeniería Mecánica y Metalúrgica, Pontificia Universidad Católica de Chile – sequence: 3 givenname: Dayalan R. surname: Gunasegaram fullname: Gunasegaram, Dayalan R. organization: Commonwealth Scientific and Industrial Research Organization (CSIRO) – sequence: 4 givenname: Natalia surname: Deeva fullname: Deeva, Natalia organization: Commonwealth Scientific and Industrial Research Organization (CSIRO)
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Snippet	Although the gray cast iron solidification process has been the subject of several modeling studies, almost all available models appear to deal with only the...
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SubjectTerms	Applied sciences Cast iron Characterization and Evaluation of Materials Chemistry and Materials Science Eutectoid composition Eutectoid temperature Exact sciences and technology Ferrite Graphite Gray iron Materials Science Mathematical models Metallic Materials Metallurgy Metals. Metallurgy Microstructure Nanotechnology Solidification Structural Materials Surfaces and Interfaces Thin Films Transformations
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Title	Thermal Microstructural Multiscale Simulation of Solidification and Eutectoid Transformation of Hypereutectic Gray Cast Iron
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