Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel

In this study, Fe-12.50Mn-1.10C-1.70Cr-0.40Mo-0.40Si-0.50(max)P-0.50(max)S (Hadfield alloy) and Fe-28.4Mn-0.86C-1.63Al-0.42Cu-1.80Mo- .59Si-0.60W (Fermanal alloy) (Wt. %) in the aged condition were compared in terms of its tribological and microstructural properties. The x-ray diffraction (XRD) patt...

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Autores:
Sánchez Sthepa, Héctor
Ramos, Jorge
Pérez Alcázar, German Antonio
Astudillo A., P. C.
Soriano G., A. F.
Barona Osorio, Gisselle Marcela
Durán, J. F.
Tipo de recurso:
Article of journal
Fecha de publicación:
2017
Institución:
Universidad Autónoma de Occidente
Repositorio:
RED: Repositorio Educativo Digital UAO
Idioma:
eng
OAI Identifier:
oai:red.uao.edu.co:10614/11195
Acceso en línea:
http://hdl.handle.net/10614/11195
https://doi.org/10.1007/s10751-017-1422-x
Palabra clave:
Materiales - propiedades mecánicas
Material - mechanical properties
Hadfield steel
Fermanal steel
Mechanical properties
X-Ray diffraction
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openAccess
License
Derechos Reservados - Universidad Autónoma de Occidente
id REPOUAO2_2261e226d19d9b75992b297cf6839c90
oai_identifier_str oai:red.uao.edu.co:10614/11195
network_acronym_str REPOUAO2
network_name_str RED: Repositorio Educativo Digital UAO
repository_id_str
dc.title.eng.fl_str_mv Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel
title Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel
spellingShingle Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel
Materiales - propiedades mecánicas
Material - mechanical properties
Hadfield steel
Fermanal steel
Mechanical properties
X-Ray diffraction
title_short Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel
title_full Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel
title_fullStr Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel
title_full_unstemmed Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel
title_sort Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel
dc.creator.fl_str_mv Sánchez Sthepa, Héctor
Ramos, Jorge
Pérez Alcázar, German Antonio
Astudillo A., P. C.
Soriano G., A. F.
Barona Osorio, Gisselle Marcela
Durán, J. F.
dc.contributor.author.none.fl_str_mv Sánchez Sthepa, Héctor
Ramos, Jorge
Pérez Alcázar, German Antonio
Astudillo A., P. C.
Soriano G., A. F.
Barona Osorio, Gisselle Marcela
Durán, J. F.
dc.subject.armarc.spa.fl_str_mv Materiales - propiedades mecánicas
topic Materiales - propiedades mecánicas
Material - mechanical properties
Hadfield steel
Fermanal steel
Mechanical properties
X-Ray diffraction
dc.subject.armarc.eng.fl_str_mv Material - mechanical properties
dc.subject.proposal.eng.fl_str_mv Hadfield steel
Fermanal steel
Mechanical properties
X-Ray diffraction
description In this study, Fe-12.50Mn-1.10C-1.70Cr-0.40Mo-0.40Si-0.50(max)P-0.50(max)S (Hadfield alloy) and Fe-28.4Mn-0.86C-1.63Al-0.42Cu-1.80Mo- .59Si-0.60W (Fermanal alloy) (Wt. %) in the aged condition were compared in terms of its tribological and microstructural properties. The x-ray diffraction (XRD) patterns were refined with the lines of the austenitic γ -phase, Chromium Iron Carbide (Cr2Fe14C), Iron Carbide (Fe2C), and Iron Oxide (Fe0.974O (II)) for the Hadfield alloy, and the lines of the austenitic γ - phase, martensite (M), Mn1.1Al0.9 phase and iron carbide (Fe7C3) for the Fermanal alloy. Mossbauer spectra were fit with two sites for the Hadfield alloy, which displayed as a broad ¨ singlet because of the austenitic disordered phase, and had a magnetic hyperfine field distribution, which corresponds to the Cr2Fe14C ferromagnetic carbides found by XRD. There were two paramagnetic sites, a singlet, which corresponds to the austenite disordered phase, and a doublet, which can be attributed to the Fe7C3 carbide. The obtained Rockwell C hardness for aged Hadfield and Fermanal alloys were 43.786 and 50.018 HRc, respectively
publishDate 2017
dc.date.issued.none.fl_str_mv 2017-05-15
dc.date.accessioned.none.fl_str_mv 2019-10-11T13:18:55Z
dc.date.available.none.fl_str_mv 2019-10-11T13:18:55Z
dc.type.spa.fl_str_mv Artículo de revista
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dc.identifier.issn.spa.fl_str_mv 15729540 (en línea)
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dc.identifier.uri.none.fl_str_mv http://hdl.handle.net/10614/11195
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identifier_str_mv 15729540 (en línea)
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https://doi.org/10.1007/s10751-017-1422-x
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language eng
dc.relation.citationendpage.none.fl_str_mv 12
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dc.relation.cites.eng.fl_str_mv Osorio, G. B., Sthepa, H. S., Ramos, J., Durán, J. F., & Alcázar, G. P. (2017). Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel. Hyperfine Interactions, 238 (1), 1-12. DOI 10.1007/s10751-017-1422-x
dc.relation.references.none.fl_str_mv Tweedale, G.: Sir Robert Abbott Hadfield F.R.S. (1858-1940), and the discovery of manganese steel. Notes Rec. R. Soc. 40, 63 (1985)
Srivastava, A., Das, K.: Microstructural characterization of Hadfield austenitic manganese steel. Mater. Sci. 43, 5654 (2008)
Valencia, A.: Las posibilidades de un nuevo acero Fe–Mn–Al–Si. Rev. Colomb. Mater. 7, 1 (2012)
ASTM A128/A128M-93 Standard Specification for Steel Castings, Austenitic manganese american society for testing and materials (2012)
Dastur, Y.N., Leslie, W.C.: Mechanism of work hardening in Hadfield manganese steel. Metall. Trans. A 12, 749 (1981)
García, A., Varela, Á., Mier, J.L., Camba, C., Barbadillo, F.: Estudio tribológico de aceros austenticos tipo Hadfield: influencia del manganeso en su respuesta frente al desgaste. Rev. Metal. 46, 47 (2010)
Hofer, S., Hartl, M., Schestak, G., Schneider, R., Arenholz, E., Samek, L.: Comparison of austenitic High-Mn-Steels with different Mn- and C-contents regarding their processing properties. BHM Berg-und Hüttenmännische Monatshefte 156, 99 (2011)
Ramos, J., Piamba, J.F., Sánchez, H., Pérez Alcazar, G. A.: Mössbauer and XRD characterization of the phase transformations in a Fe-Mn-Al-C-Mo-Si-Cu as cast alloy during tribology test. Hyperfine Interact. 232, 119 (2015)
Kim, H., Suh, D., Kim, N.J.: Fe–Al–Mn–C lightweight structural alloys: a review on the microstructures and mechanical properties Sci. Technol. Adv. Mater. 14, 017205 (2013)
Ramos, J.: Obtención siderúrgica y aplicación industríal de los aceros fermanal: Fe-28,6Mn-5,63A1-0.86C-0.43Cu-1,81Mo-1,59Si-0,60W Y Fe-28,6Mn-1,60A1-0.86C-0.43Cu-1,81Mo-1,59Si-0,60W, Ph.D thesis (2011)
Kayak, G.L.: Fe–Mn–Al precipitation-hardening austenitic alloys. Met. Sci. Heat Treat. 11, 95 (1969)
Sant, S.B., Smith, R.W.: A study in the work-hardening behaviour of austenitic manganese steels. J. Mater. Sci. 22, 1808 (1987)
Heredia, J.C.: Estabilidad de la fase austenítica, variación de la dureza en los aceros al manganeso afectados por el calor y sometidos a impactos. Rev. Del Inst. Investig. (RIIGEO), UNMSM 15, 99 (2012)
Prodhan, A., Chakrabarti, A.: A study on age hardening in cast Fe-Mn-Al-Si-C alloys. J. Mater. Sci. 25, 1856 (1990)
Sato, K., Tagawa, K., Inoue, Y.: Spinodal decomposition and mechanical properties of an austenitic Fe-30wt.%Mn-9wt.%Al-0.9wt.%C alloy. Mater. Sci. Eng. A 111, 45 (1989)
Sato, K., Tagawa, K., Inoue, Y.: Age hardening of an Fe-30Mn-9Al-0.9C alloy by spinodal decomposition. Scr. Metall. 22, 899 (1988)
Varret, F., Teillet, J.: Unpublished MOSFIT program
Larson, A.C., Von Dreele, R.: General structure analaysis system (GSAS), los alamos national laboratory report, LAUR, 86 (2004)
Paduani, C., Galvão, E, Pérez Alcazar, G. A.: Mössbauer effect study of γ-FeMn alloys. Hyp. Int. 73, 233 (1992)
Johnston, W.D., Heikes, R.R., Petrolo, J.: The preparation of fine powder hexagonal Fe2C and its coercive force. J. Phys. Chem. 64(11), 1720 (1960)
Silva de Oliveira, L.: Ph. D. Thesis, UFMG, Porto Alegre, Brazil (1991)
Moya, T., Fournès, L., Hagenmuller, P., Kolditz, L., Blumenthal, G., Wegner, G.: Mö ß bauer-Untersuchung der thermischen Umwandlungen von Kaolin Caminau im Temperaturbereich 383K bis 1465 K. Z. Chem. 25(9), 343 (1985)
Bavinov, V.A., Tsurin, V.A., Surikov, V.T.: Study of mechanically synthesized carbide Fe7C3. Phys. Metals. Matallogr. 110, 474 (2010)
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spelling Sánchez Sthepa, HéctorRamos, Jorgevirtual::4297-1Pérez Alcázar, German Antoniod08eab27f2f02ab376dbdd6b752d2328Astudillo A., P. C.7811f7afc18a65a12cbfe4f8ab8a99e6Soriano G., A. F.accc28faa0f7955d33abab1f48f38e81Barona Osorio, Gisselle Marcelabe11d3b36ec02d6dd585af9710277701Durán, J. F.0cbdec4a86816ca255bad2045b4f8af4Universidad Autónoma de Occidente. Calle 25 115-85. Km 2 vía Cali-Jamundí2019-10-11T13:18:55Z2019-10-11T13:18:55Z2017-05-1515729540 (en línea)03043843 (impresa)http://hdl.handle.net/10614/11195https://doi.org/10.1007/s10751-017-1422-xIn this study, Fe-12.50Mn-1.10C-1.70Cr-0.40Mo-0.40Si-0.50(max)P-0.50(max)S (Hadfield alloy) and Fe-28.4Mn-0.86C-1.63Al-0.42Cu-1.80Mo- .59Si-0.60W (Fermanal alloy) (Wt. %) in the aged condition were compared in terms of its tribological and microstructural properties. The x-ray diffraction (XRD) patterns were refined with the lines of the austenitic γ -phase, Chromium Iron Carbide (Cr2Fe14C), Iron Carbide (Fe2C), and Iron Oxide (Fe0.974O (II)) for the Hadfield alloy, and the lines of the austenitic γ - phase, martensite (M), Mn1.1Al0.9 phase and iron carbide (Fe7C3) for the Fermanal alloy. Mossbauer spectra were fit with two sites for the Hadfield alloy, which displayed as a broad ¨ singlet because of the austenitic disordered phase, and had a magnetic hyperfine field distribution, which corresponds to the Cr2Fe14C ferromagnetic carbides found by XRD. There were two paramagnetic sites, a singlet, which corresponds to the austenite disordered phase, and a doublet, which can be attributed to the Fe7C3 carbide. The obtained Rockwell C hardness for aged Hadfield and Fermanal alloys were 43.786 and 50.018 HRc, respectivelyapplication/pdf12 páginasengSpringerDerechos Reservados - Universidad Autónoma de Occidentehttps://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccessAtribución-NoComercial-SinDerivadas 4.0 Internacional (CC BY-NC-ND 4.0)http://purl.org/coar/access_right/c_abf2Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steelArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTREFinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85Materiales - propiedades mecánicasMaterial - mechanical propertiesHadfield steelFermanal steelMechanical propertiesX-Ray diffraction1211238Osorio, G. B., Sthepa, H. S., Ramos, J., Durán, J. F., & Alcázar, G. P. (2017). Comparative study of the mechanical and tribological properties of a Hadfield and a Fermanal steel. Hyperfine Interactions, 238 (1), 1-12. DOI 10.1007/s10751-017-1422-xTweedale, G.: Sir Robert Abbott Hadfield F.R.S. (1858-1940), and the discovery of manganese steel. Notes Rec. R. Soc. 40, 63 (1985)Srivastava, A., Das, K.: Microstructural characterization of Hadfield austenitic manganese steel. Mater. Sci. 43, 5654 (2008)Valencia, A.: Las posibilidades de un nuevo acero Fe–Mn–Al–Si. Rev. Colomb. Mater. 7, 1 (2012)ASTM A128/A128M-93 Standard Specification for Steel Castings, Austenitic manganese american society for testing and materials (2012)Dastur, Y.N., Leslie, W.C.: Mechanism of work hardening in Hadfield manganese steel. Metall. Trans. A 12, 749 (1981)García, A., Varela, Á., Mier, J.L., Camba, C., Barbadillo, F.: Estudio tribológico de aceros austenticos tipo Hadfield: influencia del manganeso en su respuesta frente al desgaste. Rev. Metal. 46, 47 (2010)Hofer, S., Hartl, M., Schestak, G., Schneider, R., Arenholz, E., Samek, L.: Comparison of austenitic High-Mn-Steels with different Mn- and C-contents regarding their processing properties. BHM Berg-und Hüttenmännische Monatshefte 156, 99 (2011)Ramos, J., Piamba, J.F., Sánchez, H., Pérez Alcazar, G. A.: Mössbauer and XRD characterization of the phase transformations in a Fe-Mn-Al-C-Mo-Si-Cu as cast alloy during tribology test. Hyperfine Interact. 232, 119 (2015)Kim, H., Suh, D., Kim, N.J.: Fe–Al–Mn–C lightweight structural alloys: a review on the microstructures and mechanical properties Sci. Technol. Adv. Mater. 14, 017205 (2013)Ramos, J.: Obtención siderúrgica y aplicación industríal de los aceros fermanal: Fe-28,6Mn-5,63A1-0.86C-0.43Cu-1,81Mo-1,59Si-0,60W Y Fe-28,6Mn-1,60A1-0.86C-0.43Cu-1,81Mo-1,59Si-0,60W, Ph.D thesis (2011)Kayak, G.L.: Fe–Mn–Al precipitation-hardening austenitic alloys. Met. Sci. Heat Treat. 11, 95 (1969)Sant, S.B., Smith, R.W.: A study in the work-hardening behaviour of austenitic manganese steels. J. Mater. Sci. 22, 1808 (1987)Heredia, J.C.: Estabilidad de la fase austenítica, variación de la dureza en los aceros al manganeso afectados por el calor y sometidos a impactos. Rev. Del Inst. Investig. (RIIGEO), UNMSM 15, 99 (2012)Prodhan, A., Chakrabarti, A.: A study on age hardening in cast Fe-Mn-Al-Si-C alloys. J. Mater. Sci. 25, 1856 (1990)Sato, K., Tagawa, K., Inoue, Y.: Spinodal decomposition and mechanical properties of an austenitic Fe-30wt.%Mn-9wt.%Al-0.9wt.%C alloy. Mater. Sci. Eng. A 111, 45 (1989)Sato, K., Tagawa, K., Inoue, Y.: Age hardening of an Fe-30Mn-9Al-0.9C alloy by spinodal decomposition. Scr. Metall. 22, 899 (1988)Varret, F., Teillet, J.: Unpublished MOSFIT programLarson, A.C., Von Dreele, R.: General structure analaysis system (GSAS), los alamos national laboratory report, LAUR, 86 (2004)Paduani, C., Galvão, E, Pérez Alcazar, G. A.: Mössbauer effect study of γ-FeMn alloys. Hyp. Int. 73, 233 (1992)Johnston, W.D., Heikes, R.R., Petrolo, J.: The preparation of fine powder hexagonal Fe2C and its coercive force. J. Phys. Chem. 64(11), 1720 (1960)Silva de Oliveira, L.: Ph. D. Thesis, UFMG, Porto Alegre, Brazil (1991)Moya, T., Fournès, L., Hagenmuller, P., Kolditz, L., Blumenthal, G., Wegner, G.: Mö ß bauer-Untersuchung der thermischen Umwandlungen von Kaolin Caminau im Temperaturbereich 383K bis 1465 K. Z. Chem. 25(9), 343 (1985)Bavinov, V.A., Tsurin, V.A., Surikov, V.T.: Study of mechanically synthesized carbide Fe7C3. Phys. Metals. 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