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dc.date.accessioned2021-05-27T18:25:21Z
dc.date.available2021-05-27T18:25:21Z
dc.date.issued2021-03-23es_MX
dc.identifier.urihttp://cathi.uacj.mx/20.500.11961/18408
dc.description.abstractMagnetoelastic transitions (METs) in bulk in nearly equiatomic Fe-Rh alloys produced by arc melting may show poor reproducibility related to insufficient chemical homogeneity and presence of impurity phases in variable concentrations. To better understand the synthesis conditions that reliably yield bulk FeRh ma- terials with reproducible MET characteristics, Fe100-xRhx alloys with x = 50, 50.5 and 51 at. % were prepared by induction melting and thermal annealing under identical conditions. The fabricated samples were cut into several slices, followed by characterization of METs in each of the slices using isothermal and isofield magnetization measurements, differential scanning calorimetry, and direct measurements of the magne- tocaloric effect. All of the slices exhibit METs between the AFM and FM states, but the transitions are abrupt with nearly the same change of magnetization, ΔM, when x = 50.5 and 51, whereas for the x = 50 alloy the transition spreads over a wide temperature interval and ΔM may fluctuate by as much as 10 % from one specimen to another. A comparison of the magnetocaloric responses of x = 50 and 51 materials is presented. The clearly different effect of the magnetic field on the transition in both directions leads to significant differences in the reversibility and maximum values of the magnetic field-induced entropy and adiabatic temperature changes, as well as average hysteresis losses. In terms of reproducibility, our results suggest that induction melting is a more appropriate technique to prepare these binary alloys.es_MX
dc.language.isoenes_MX
dc.relation.ispartofProducto de investigación IITes_MX
dc.relation.ispartofInstituto de Ingeniería y Tecnologíaes_MX
dc.rightsAtribución-NoComercial-SinDerivadas 2.5 México*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/2.5/mx/*
dc.subjectiron-rhodium alloyses_MX
dc.subjectMagnetocaloric effectes_MX
dc.subjectFirst-order phase transitiones_MX
dc.subject.otherinfo:eu-repo/classification/cti/1es_MX
dc.titleMagnetoelastic transition and magnetocaloric effect in induction melted Fe100-xRhx bulk alloys with x = 50, 51es_MX
dc.typeArtículoes_MX
dcterms.thumbnailhttp://ri.uacj.mx/vufind/thumbnails/rupiiit.pnges_MX
dcrupi.institutoInstituto de Ingeniería y Tecnologíaes_MX
dcrupi.cosechableSies_MX
dcrupi.volumen871es_MX
dcrupi.nopagina1-8es_MX
dc.identifier.doihttps://doi.org/10.1016/j.jallcom.2021.159586es_MX
dc.contributor.coauthorSánchez Valdés, César Fidel
dc.journal.titleJournal of Alloys and Compoundses_MX
dc.lgacESTUDIOS EXPERIMENTALES EN SUPERFICIES E INTERFACES DE LOS MATERIALESes_MX
dc.cuerpoacademicoSuperficies, Interfaces y Simulación de Materiales Avanzadoses_MX
dc.contributor.authorexternoArreguín-Hernández, M.L.
dc.contributor.coauthorexternoSánchez Llamazares, J.L.
dc.contributor.coauthorexternoRíos-Jara, D.
dc.contributor.coauthorexternoPecharsky, V.K.
dc.contributor.coauthorexternoBlinov, M.I.
dc.contributor.coauthorexternoPrudnikov, V.N.
dc.contributor.coauthorexternoKovalev, B.B.
dc.contributor.coauthorexternoZverev, V.I.
dc.contributor.coauthorexternoTishin, A.M.
dcrupi.colaboracionextMéxicoes_MX
dcrupi.colaboracionextUnited State of Americaes_MX
dcrupi.colaboracionextRussiaes_MX


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