Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2020 |
| Outros Autores: | , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional da Udesc |
| dARK ID: | ark:/33523/001300000k0bj |
| Texto Completo: | https://repositorio.udesc.br/handle/UDESC/4583 |
Resumo: | © 2020, American Foundry Society.This work compares alternatives for the production of high ductility ADI, austempered from an intercritical austenitizing temperature range, with a microstructure of ferrite + ausferrite. Different initial microstructures were selected, including ferrite, pearlite, pearlite + ferrite, martensite and ausferrite. The samples were austenitized within the intercritical zone (795 °C) for different times (up to 12 h) and then austempered at 350 °C. The evolution of the formation and distribution of ferrite and austenite during the austenitizing process for the different initial microstructures was studied. For the selected austenitizing temperature, all of the initial microstructures produced 30% ferrite (70% ausferrite) in the final microstructure (after 12 h). The mechanical properties depend upon the distribution and refinement of the ferrite and ausferrite areas. Spheroidized carbides from pearlite are not completely dissolved during intercritical austenitizing for 2 h. Graphite nodules are an important source of carbon for the austenite formed from starting microstructures of ferrite, pearlite + ferrite and pearlite with grain boundaries being the main pathway for carbon diffusion. Austenitizing started away from the graphite nodules at eutectic cell boundaries due to Si segregation. For starting microstructures of ferrite, pearlite and pearlite + ferrite, a homogeneous distribution of austenite does not occur. Rather, it is concentrated on eutectic cell boundaries and ferrite grain boundaries with large areas of ferrite around the graphite nodules. For starting microstructures of martensite and ausferrite, carbon is evenly distributed and quickly dissolved, resulting in a homogeneous distribution of austenite and ferrite with the best combination of strength and ductility. |
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Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process© 2020, American Foundry Society.This work compares alternatives for the production of high ductility ADI, austempered from an intercritical austenitizing temperature range, with a microstructure of ferrite + ausferrite. Different initial microstructures were selected, including ferrite, pearlite, pearlite + ferrite, martensite and ausferrite. The samples were austenitized within the intercritical zone (795 °C) for different times (up to 12 h) and then austempered at 350 °C. The evolution of the formation and distribution of ferrite and austenite during the austenitizing process for the different initial microstructures was studied. For the selected austenitizing temperature, all of the initial microstructures produced 30% ferrite (70% ausferrite) in the final microstructure (after 12 h). The mechanical properties depend upon the distribution and refinement of the ferrite and ausferrite areas. Spheroidized carbides from pearlite are not completely dissolved during intercritical austenitizing for 2 h. Graphite nodules are an important source of carbon for the austenite formed from starting microstructures of ferrite, pearlite + ferrite and pearlite with grain boundaries being the main pathway for carbon diffusion. Austenitizing started away from the graphite nodules at eutectic cell boundaries due to Si segregation. For starting microstructures of ferrite, pearlite and pearlite + ferrite, a homogeneous distribution of austenite does not occur. Rather, it is concentrated on eutectic cell boundaries and ferrite grain boundaries with large areas of ferrite around the graphite nodules. For starting microstructures of martensite and ausferrite, carbon is evenly distributed and quickly dissolved, resulting in a homogeneous distribution of austenite and ferrite with the best combination of strength and ductility.2024-12-06T11:57:04Z2020info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articlep. 717 - 7272163-319310.1007/s40962-019-00397-yhttps://repositorio.udesc.br/handle/UDESC/4583ark:/33523/001300000k0bjInternational Journal of Metalcasting143Guesser W.L.*Lopes C.L.Bernardini P.A.N.engreponame:Repositório Institucional da Udescinstname:Universidade do Estado de Santa Catarina (UDESC)instacron:UDESCinfo:eu-repo/semantics/openAccess2024-12-07T20:45:04Zoai:repositorio.udesc.br:UDESC/4583Biblioteca Digital de Teses e Dissertaçõeshttps://pergamumweb.udesc.br/biblioteca/index.phpPRIhttps://repositorio-api.udesc.br/server/oai/requestri@udesc.bropendoar:63912024-12-07T20:45:04Repositório Institucional da Udesc - Universidade do Estado de Santa Catarina (UDESC)false |
| dc.title.none.fl_str_mv |
Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process |
| title |
Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process |
| spellingShingle |
Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process Guesser W.L.* |
| title_short |
Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process |
| title_full |
Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process |
| title_fullStr |
Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process |
| title_full_unstemmed |
Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process |
| title_sort |
Austempered Ductile Iron with Dual Microstructures: Effect of Initial Microstructure on the Austenitizing Process |
| author |
Guesser W.L.* |
| author_facet |
Guesser W.L.* Lopes C.L. Bernardini P.A.N. |
| author_role |
author |
| author2 |
Lopes C.L. Bernardini P.A.N. |
| author2_role |
author author |
| dc.contributor.author.fl_str_mv |
Guesser W.L.* Lopes C.L. Bernardini P.A.N. |
| description |
© 2020, American Foundry Society.This work compares alternatives for the production of high ductility ADI, austempered from an intercritical austenitizing temperature range, with a microstructure of ferrite + ausferrite. Different initial microstructures were selected, including ferrite, pearlite, pearlite + ferrite, martensite and ausferrite. The samples were austenitized within the intercritical zone (795 °C) for different times (up to 12 h) and then austempered at 350 °C. The evolution of the formation and distribution of ferrite and austenite during the austenitizing process for the different initial microstructures was studied. For the selected austenitizing temperature, all of the initial microstructures produced 30% ferrite (70% ausferrite) in the final microstructure (after 12 h). The mechanical properties depend upon the distribution and refinement of the ferrite and ausferrite areas. Spheroidized carbides from pearlite are not completely dissolved during intercritical austenitizing for 2 h. Graphite nodules are an important source of carbon for the austenite formed from starting microstructures of ferrite, pearlite + ferrite and pearlite with grain boundaries being the main pathway for carbon diffusion. Austenitizing started away from the graphite nodules at eutectic cell boundaries due to Si segregation. For starting microstructures of ferrite, pearlite and pearlite + ferrite, a homogeneous distribution of austenite does not occur. Rather, it is concentrated on eutectic cell boundaries and ferrite grain boundaries with large areas of ferrite around the graphite nodules. For starting microstructures of martensite and ausferrite, carbon is evenly distributed and quickly dissolved, resulting in a homogeneous distribution of austenite and ferrite with the best combination of strength and ductility. |
| publishDate |
2020 |
| dc.date.none.fl_str_mv |
2020 2024-12-06T11:57:04Z |
| dc.type.status.fl_str_mv |
info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
| format |
article |
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publishedVersion |
| dc.identifier.uri.fl_str_mv |
2163-3193 10.1007/s40962-019-00397-y https://repositorio.udesc.br/handle/UDESC/4583 |
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ark:/33523/001300000k0bj |
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2163-3193 10.1007/s40962-019-00397-y ark:/33523/001300000k0bj |
| url |
https://repositorio.udesc.br/handle/UDESC/4583 |
| dc.language.iso.fl_str_mv |
eng |
| language |
eng |
| dc.relation.none.fl_str_mv |
International Journal of Metalcasting 14 3 |
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info:eu-repo/semantics/openAccess |
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openAccess |
| dc.format.none.fl_str_mv |
p. 717 - 727 |
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reponame:Repositório Institucional da Udesc instname:Universidade do Estado de Santa Catarina (UDESC) instacron:UDESC |
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Universidade do Estado de Santa Catarina (UDESC) |
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UDESC |
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UDESC |
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Repositório Institucional da Udesc |
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Repositório Institucional da Udesc |
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Repositório Institucional da Udesc - Universidade do Estado de Santa Catarina (UDESC) |
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ri@udesc.br |
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1842258140094005248 |