Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys

Las aleaciones magnéticas nanoestructuradas a base de FeCo se destacan entre las aleaciones magnéticas convencionales a base de Fe por presentar óptimas propiedades magnéticas blandas, requeridas en una variedad de aplicaciones tecnológicas, industriales y biomédicas. En este trabajo se presentan lo...

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Autores:: Arrieta Grandinson, Daniel
Aparicio Rojas, Gladis Miriam
Caamaño De Ávila, Zulia Isabel
Aparicio Rojas, Gladis Miriam

Tipo de recurso:: Article of journal

Fecha de publicación:: 2019

Institución:: Universidad Autónoma de Occidente

Repositorio:: RED: Repositorio Educativo Digital UAO

Idioma:: eng

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dc.title.eng.fl_str_mv	Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys
dc.title.alternative.spa.fl_str_mv	Caracterización térmica de aleaciones nanoestructuradas Fe50Co50 y Fe65Co35
title	Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys
spellingShingle	Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys Materiales magnéticos Magnetic materials Caracterización Térmica Aleado Mecánico Aleaciones Nanoestructuradas Análisis Termogravimétrico Transiciones de Fase Termogravimetría Magnética Thermal characterization Nanostructured alloys Phase transitions Magnetic thermogravimetric Thermogravimetric analysis Mechanical alloying
title_short	Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys
title_full	Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys
title_fullStr	Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys
title_full_unstemmed	Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys
title_sort	Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys
dc.creator.fl_str_mv	Arrieta Grandinson, Daniel Aparicio Rojas, Gladis Miriam Caamaño De Ávila, Zulia Isabel Aparicio Rojas, Gladis Miriam
dc.contributor.author.spa.fl_str_mv	Arrieta Grandinson, Daniel Aparicio Rojas, Gladis Miriam Caamaño De Ávila, Zulia Isabel
dc.contributor.author.none.fl_str_mv	Aparicio Rojas, Gladis Miriam
dc.subject.armarc.spa.fl_str_mv	Materiales magnéticos
topic	Materiales magnéticos Magnetic materials Caracterización Térmica Aleado Mecánico Aleaciones Nanoestructuradas Análisis Termogravimétrico Transiciones de Fase Termogravimetría Magnética Thermal characterization Nanostructured alloys Phase transitions Magnetic thermogravimetric Thermogravimetric analysis Mechanical alloying
dc.subject.armarc.eng.fl_str_mv	Magnetic materials
dc.subject.proposal.spa.fl_str_mv	Caracterización Térmica Aleado Mecánico Aleaciones Nanoestructuradas Análisis Termogravimétrico Transiciones de Fase Termogravimetría Magnética
dc.subject.proposal.eng.fl_str_mv	Thermal characterization Nanostructured alloys Phase transitions Magnetic thermogravimetric Thermogravimetric analysis Mechanical alloying
description	Las aleaciones magnéticas nanoestructuradas a base de FeCo se destacan entre las aleaciones magnéticas convencionales a base de Fe por presentar óptimas propiedades magnéticas blandas, requeridas en una variedad de aplicaciones tecnológicas, industriales y biomédicas. En este trabajo se presentan los resultados obtenidos de la caracterización térmica por calorimetría diferencial de barrido y termogravimetría magnética de polvos puros de Fe y Co, y de polvos magnéticos nanoestructurados a base de Fe50Co50 y Fe65Co35 preparados por el método de Aleado Mecánico de elevada energía. Por medio de estas técnicas y bajo la influencia de diferentes atmósferas inertes como Helio (He),Nitrógeno (N2) y Argón (Ar), se evidenciaron los eventos térmicos que tienen lugar desde temperatura ambiente hasta 900 °C para muestras molidas a diferentes tiempos (0, 10, 15, 20 y 25 horas), eventos tales como las temperaturas de transición magnética y de orden – desorden características de este tipo de muestras y del proceso de molienda
publishDate	2019
dc.date.issued.none.fl_str_mv	2019
dc.date.accessioned.none.fl_str_mv	2021-11-09T21:17:33Z
dc.date.available.none.fl_str_mv	2021-11-09T21:17:33Z
dc.type.spa.fl_str_mv	Artículo de revista
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dc.relation.cites.eng.fl_str_mv	Arrieta Grandinson, D., Aparicio Rojas, G. M., Caamaño De Ávila, Z. I. (2019). Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys. Bistua: Revista de la Facultad de Ciencias Básicas. (Vol.17 (2), pp. 158-169. DOI: https://doi.org/10.24054/01204211.v2.n2.2019.3533
dc.relation.ispartofjournal.spa.fl_str_mv	Bistua: Revista de la Facultad de Ciencias Básicas
dc.relation.references.none.fl_str_mv	Akkouche K, Guittoum A, Boukherroub N, Souami N (2011) Evolution of structure, microstructure and hyperfine properties of nanocrystalline Fe50Co50 powders prepared by mechanical alloying. J Magn Magn Mater 323: 2542-2548 Morán López J, Rodríguez López J (2012) Nanostructured materials, their properties and applications in the scientific and technological revolution of the 21st century, FCE, SMF, México Chermahini, Sharafi S, Shokrollahi H, Zandrahimi M, Shafyei A (2009) The evolution of heating rate on the microstructural and magnetic properties of milled nanostructured Fe1-xCox (x = 0.2, 0.3, 0.4, 0.5 and 0.7) powders. J Alloy Compd 484: 54-58 Kishimoto M, Latiff H, Kita E, Yanagihara H (2019) Morphology and magnetic properties of FeCo particles synthesized with different compositions of Co and Fe through co-precipitation, flux treatment, and reduction. J Magn Magn Mater 476: 229-233. Dong D., Fang Q, Wang W, Yang J (2017) Temperature Characteristics and Magnetization Mechanism of Fe1.2Co Films. J Magn Magn Mater 442: 295-299 Zeng Qi, Baker I, McCreary V, Yan Z (2007) Soft ferromagnetism in nanostructured mechanical alloying FeCo-based powders. J Magn Magn Mater 318: 28-38 Bergheul S, Otmane F, Azzaz M (2012) Structural and microwave absorption properties of nanostructured Fe-Co alloys. Adv Powder Technol 23: 580 582 Pérez Alcázar G, Zamora L, Marco J, Romero J, González J, Palomares F (2012) Magnetic and Structural Characterization of Mechanically Alloyed Fe50Co50 Samples. Revista De Ciencias 15: 41-47 Rincón Soler A I, Rodríguez Jacobo R R, Medina Barreto M, Cruz Muñoz B I (2017) Structural and magnetic behavior of the FeCo system obtained by mechanical alloying. Hyperfine Interact 238: DOI: 10.1007/s10751-017-1419-5 Yepes N, Orozco J, Caamaño Z, Mass J, Pérez G (2014) Preparation and characterization of Fe50Co50 nanostructured alloy. J Phys Conf Ser 480: 012012. Doi:10.1088/1742-6596/480/1/012012 Echeverria K (2014) Synthesis and Characterization of Nanostructures Based on Fe65Co35, Degree work, Physics program, Faculty of Basic Sciences, Universidad Del Atlántico, 90 p Alleg S, Souilah S, SuñolJ (2013) Thermal Stability of the Nanostructured Powder Mixtures Prepared by Mechanical Alloying 21-44. InTech Open, DOI: 10.5772 / 54151.101 Khajepour M, Sharafi S (2012) Characterization of nanostructured Fe-Co-Si powder alloy. Powder Technol 232: 124-133 Caamaño De Ávila Z I, Consuegra Peña M A, Baró M D, Suriñach S (2015) Synthesis and characterization of nanostructured materials based on Fe50Co50 and Fe75Co25. Journal CT&F 6 (2): 33-44
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spelling	Arrieta Grandinson, Daniel2674a1eddb7e93bd6f356e25c8e83e34Aparicio Rojas, Gladis Miriam5cfba808641898ab3187ee7be4f6ec47Caamaño De Ávila, Zulia Isabele8e5574870f5c2a0c48fce1576257b5dAparicio Rojas, Gladis Miriamvirtual::301-12021-11-09T21:17:33Z2021-11-09T21:17:33Z20191204211https://hdl.handle.net/10614/13421Las aleaciones magnéticas nanoestructuradas a base de FeCo se destacan entre las aleaciones magnéticas convencionales a base de Fe por presentar óptimas propiedades magnéticas blandas, requeridas en una variedad de aplicaciones tecnológicas, industriales y biomédicas. En este trabajo se presentan los resultados obtenidos de la caracterización térmica por calorimetría diferencial de barrido y termogravimetría magnética de polvos puros de Fe y Co, y de polvos magnéticos nanoestructurados a base de Fe50Co50 y Fe65Co35 preparados por el método de Aleado Mecánico de elevada energía. Por medio de estas técnicas y bajo la influencia de diferentes atmósferas inertes como Helio (He),Nitrógeno (N2) y Argón (Ar), se evidenciaron los eventos térmicos que tienen lugar desde temperatura ambiente hasta 900 °C para muestras molidas a diferentes tiempos (0, 10, 15, 20 y 25 horas), eventos tales como las temperaturas de transición magnética y de orden – desorden características de este tipo de muestras y del proceso de moliendaIron-cobalt based nanostructured magnetic alloys stand out among conventional magnetic Fe-based magnetic alloys because they exhibit the optimum soft magnetic properties required in a variety of technological, industrial and biomedical applications. In this work, the thermal characterization by differential scanning calorimetry was carried out using thermogravimetric analysis and magnetic thermogravimetry of Fe and Co pure powders, and nanostructured magnetic powders based on Fe50Co50 and Fe65Co35 prepared with the high energy mechanical alloying method. By means of these techniques and with the influence of different atmospheres as Helium (He), Nitrogen (N2) and Argon (Ar), thermal events for samples milled at different times (0, 10, 15, 20 and 25 hours) were evidenced taking place from -70 °C to 500 °C by differential scanning calorimetry and ambient temperature up to 900 °C in the thermogravimetric analyzer. The observed events, as the temperature in the material varies, are associated with the magnetic transition temperatures, order -disorder phase transitions and stress relaxation effect which are features of this type of samples and the milling process12 páginasapplication/pdfengBistua: Revista de la Facultad de Ciencias BásicasPamplonaDerechos reservados - Universidad de Pamplona, Colombia, 2019https://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_abf2Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloysCaracterización térmica de aleaciones nanoestructuradas Fe50Co50 y Fe65Co35Artículo 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/ARTinfo:eu-repo/semantics/publishedVersionhttp://purl.org/coar/version/c_970fb48d4fbd8a85Materiales magnéticosMagnetic materialsCaracterización TérmicaAleado MecánicoAleaciones NanoestructuradasAnálisis TermogravimétricoTransiciones de FaseTermogravimetría MagnéticaThermal characterizationNanostructured alloysPhase transitionsMagnetic thermogravimetricThermogravimetric analysisMechanical alloying169215817Arrieta Grandinson, D., Aparicio Rojas, G. M., Caamaño De Ávila, Z. I. (2019). Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys. Bistua: Revista de la Facultad de Ciencias Básicas. (Vol.17 (2), pp. 158-169. DOI: https://doi.org/10.24054/01204211.v2.n2.2019.3533Bistua: Revista de la Facultad de Ciencias BásicasAkkouche K, Guittoum A, Boukherroub N, Souami N (2011) Evolution of structure, microstructure and hyperfine properties of nanocrystalline Fe50Co50 powders prepared by mechanical alloying. J Magn Magn Mater 323: 2542-2548Morán López J, Rodríguez López J (2012) Nanostructured materials, their properties and applications in the scientific and technological revolution of the 21st century, FCE, SMF, MéxicoChermahini, Sharafi S, Shokrollahi H, Zandrahimi M, Shafyei A (2009) The evolution of heating rate on the microstructural and magnetic properties of milled nanostructured Fe1-xCox (x = 0.2, 0.3, 0.4, 0.5 and 0.7) powders. J Alloy Compd 484: 54-58Kishimoto M, Latiff H, Kita E, Yanagihara H (2019) Morphology and magnetic properties of FeCo particles synthesized with different compositions of Co and Fe through co-precipitation, flux treatment, and reduction. J Magn Magn Mater 476: 229-233.Dong D., Fang Q, Wang W, Yang J (2017) Temperature Characteristics and Magnetization Mechanism of Fe1.2Co Films. J Magn Magn Mater 442: 295-299Zeng Qi, Baker I, McCreary V, Yan Z (2007) Soft ferromagnetism in nanostructured mechanical alloying FeCo-based powders. J Magn Magn Mater 318: 28-38Bergheul S, Otmane F, Azzaz M (2012) Structural and microwave absorption properties of nanostructured Fe-Co alloys. Adv Powder Technol 23: 580 582Pérez Alcázar G, Zamora L, Marco J, Romero J, González J, Palomares F (2012) Magnetic and Structural Characterization of Mechanically Alloyed Fe50Co50 Samples. Revista De Ciencias 15: 41-47Rincón Soler A I, Rodríguez Jacobo R R, Medina Barreto M, Cruz Muñoz B I (2017) Structural and magnetic behavior of the FeCo system obtained by mechanical alloying. Hyperfine Interact 238: DOI: 10.1007/s10751-017-1419-5Yepes N, Orozco J, Caamaño Z, Mass J, Pérez G (2014) Preparation and characterization of Fe50Co50 nanostructured alloy. J Phys Conf Ser 480: 012012. Doi:10.1088/1742-6596/480/1/012012Echeverria K (2014) Synthesis and Characterization of Nanostructures Based on Fe65Co35, Degree work, Physics program, Faculty of Basic Sciences, Universidad Del Atlántico, 90 pAlleg S, Souilah S, SuñolJ (2013) Thermal Stability of the Nanostructured Powder Mixtures Prepared by Mechanical Alloying 21-44. InTech Open, DOI: 10.5772 / 54151.101Khajepour M, Sharafi S (2012) Characterization of nanostructured Fe-Co-Si powder alloy. Powder Technol 232: 124-133Caamaño De Ávila Z I, Consuegra Peña M A, Baró M D, Suriñach S (2015) Synthesis and characterization of nanostructured materials based on Fe50Co50 and Fe75Co25. Journal CT&F 6 (2): 33-44Comunidad universitaria en generalGeneralPublicationb4461b68-2d8c-4ca0-b6fe-cd2e043a2c53virtual::301-1b4461b68-2d8c-4ca0-b6fe-cd2e043a2c53virtual::301-1https://scholar.google.com/citations?user=WtTqM8IAAAAJ&hl=esvirtual::301-10000-0002-7158-1223virtual::301-1https://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0000112399virtual::301-1LICENSElicense.txtlicense.txttext/plain; charset=utf-81665https://red.uao.edu.co/bitstreams/0640dc79-f84d-4a53-a347-9e78d9cf5ac9/download20b5ba22b1117f71589c7318baa2c560MD52ORIGINALThermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys.pdfThermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys.pdfTexto archivo completo del artículo de revista, PDFapplication/pdf715829https://red.uao.edu.co/bitstreams/99ac2796-c9be-4446-9987-deca1ae893ba/download459b44ab3f0befdf1d8294da94db717aMD53TEXTThermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys.pdf.txtThermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys.pdf.txtExtracted texttext/plain32459https://red.uao.edu.co/bitstreams/a7f62030-c2bc-4982-a0be-30fc8c4bc7dd/download65f6cc8f8870b579029b8bb5c92d6797MD54THUMBNAILThermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys.pdf.jpgThermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys.pdf.jpgGenerated Thumbnailimage/jpeg11776https://red.uao.edu.co/bitstreams/84e0a5fb-62b7-439b-a1b4-b911caa60921/downloade78b218136ed1d31ea358f735e08ba91MD5510614/13421oai:red.uao.edu.co:10614/134212024-02-26 16:31:12.002https://creativecommons.org/licenses/by-nc-nd/4.0/Derechos reservados - Universidad de Pamplona, Colombia, 2019open.accesshttps://red.uao.edu.coRepositorio Digital Universidad Autonoma de Occidenterepositorio@uao.edu.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

Thermal characterization of Fe50Co50 and Fe65Co35 nanostructured alloys

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