Nanostructured ceramic oxides containing ferrite nanoparticles and produced by mechanical milling

A. Huerta-Ricardo; K. Tsuchiya; T. Umemoto; H. A. Calderon

doi:10.1557/opl.2013.251

Nanostructured ceramic oxides containing ferrite nanoparticles and produced by mechanical milling

A. Huerta-Ricardo, K. Tsuchiya, T. Umemoto, H. A. Calderon

Escuela Superior de Física y Matemáticas (ESFM)

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

This investigation deals with the production process and the characterization of ceramic materials consisting of magnetic particles in an insulating matrix. Composites made of magnetite particles (Fe₃O ₄ or MgFe₂O₄) in a wüstite or magnesiowüstite matrix (Fe_xO or Mg_1-xFe _xO), respectively, have been produced by means of mechanical milling and spark plasma sintering. As-milled powders have a nanocrystalline structure in both systems. As a function of milling time, low energy milling gives rise to an increasingly higher volume fraction of wüstite in the Fe _xO-Fe₃O₄ system while it promotes increasing amounts of magnesiowüstite (Mg_xFe_1-xO). Sintering is performed from 673 to 1273 K in vacuum. Sintering at low temperatures allows retention of nanosized grains containing a fine dispersion of magnetic particles in a wüstite and magnesiowüstite matrix. Measurement of magnetic properties reflects the constitution of the sintered samples and the effect of grain size. It also allows determination of the transformation sequence both during mechanical milling and sintering.

Translated title of the contribution	Óxidos cerámicos nanoestructurados que contienen nanopartículas de ferrita y producidos por molienda mecánica
Original language	English
Title of host publication	Advanced Structural Materials - 2012
Pages	71-76
Number of pages	6
DOIs	https://doi.org/10.1557/opl.2013.251
State	Published - 2013
Event	21st International Materials Research Congress, IMRC 2012 - Cancun, Mexico Duration: 12 Aug 2012 → 17 Aug 2012

Publication series

Name	Materials Research Society Symposium Proceedings
Volume	1485
ISSN (Print)	0272-9172

Conference

Conference	21st International Materials Research Congress, IMRC 2012
Country/Territory	Mexico
City	Cancun
Period	12/08/12 → 17/08/12

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10.1557/opl.2013.251

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title = "Nanostructured ceramic oxides containing ferrite nanoparticles and produced by mechanical milling",

abstract = "This investigation deals with the production process and the characterization of ceramic materials consisting of magnetic particles in an insulating matrix. Composites made of magnetite particles (Fe3O 4 or MgFe2O4) in a w{\"u}stite or magnesiow{\"u}stite matrix (FexO or Mg1-xFe xO), respectively, have been produced by means of mechanical milling and spark plasma sintering. As-milled powders have a nanocrystalline structure in both systems. As a function of milling time, low energy milling gives rise to an increasingly higher volume fraction of w{\"u}stite in the Fe xO-Fe3O4 system while it promotes increasing amounts of magnesiow{\"u}stite (MgxFe1-xO). Sintering is performed from 673 to 1273 K in vacuum. Sintering at low temperatures allows retention of nanosized grains containing a fine dispersion of magnetic particles in a w{\"u}stite and magnesiow{\"u}stite matrix. Measurement of magnetic properties reflects the constitution of the sintered samples and the effect of grain size. It also allows determination of the transformation sequence both during mechanical milling and sintering.",

author = "A. Huerta-Ricardo and K. Tsuchiya and T. Umemoto and Calderon, {H. A.}",

year = "2013",

doi = "10.1557/opl.2013.251",

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isbn = "9781605114620",

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booktitle = "Advanced Structural Materials - 2012",

note = "21st International Materials Research Congress, IMRC 2012 ; Conference date: 12-08-2012 Through 17-08-2012",

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Huerta-Ricardo, A, Tsuchiya, K, Umemoto, T & Calderon, HA 2013, Nanostructured ceramic oxides containing ferrite nanoparticles and produced by mechanical milling. in Advanced Structural Materials - 2012. Materials Research Society Symposium Proceedings, vol. 1485, pp. 71-76, 21st International Materials Research Congress, IMRC 2012, Cancun, Mexico, 12/08/12. https://doi.org/10.1557/opl.2013.251

Nanostructured ceramic oxides containing ferrite nanoparticles and produced by mechanical milling. / Huerta-Ricardo, A.; Tsuchiya, K.; Umemoto, T. et al.
Advanced Structural Materials - 2012. 2013. p. 71-76 (Materials Research Society Symposium Proceedings; Vol. 1485).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Umemoto, T.

AU - Calderon, H. A.

PY - 2013

Y1 - 2013

N2 - This investigation deals with the production process and the characterization of ceramic materials consisting of magnetic particles in an insulating matrix. Composites made of magnetite particles (Fe3O 4 or MgFe2O4) in a wüstite or magnesiowüstite matrix (FexO or Mg1-xFe xO), respectively, have been produced by means of mechanical milling and spark plasma sintering. As-milled powders have a nanocrystalline structure in both systems. As a function of milling time, low energy milling gives rise to an increasingly higher volume fraction of wüstite in the Fe xO-Fe3O4 system while it promotes increasing amounts of magnesiowüstite (MgxFe1-xO). Sintering is performed from 673 to 1273 K in vacuum. Sintering at low temperatures allows retention of nanosized grains containing a fine dispersion of magnetic particles in a wüstite and magnesiowüstite matrix. Measurement of magnetic properties reflects the constitution of the sintered samples and the effect of grain size. It also allows determination of the transformation sequence both during mechanical milling and sintering.

AB - This investigation deals with the production process and the characterization of ceramic materials consisting of magnetic particles in an insulating matrix. Composites made of magnetite particles (Fe3O 4 or MgFe2O4) in a wüstite or magnesiowüstite matrix (FexO or Mg1-xFe xO), respectively, have been produced by means of mechanical milling and spark plasma sintering. As-milled powders have a nanocrystalline structure in both systems. As a function of milling time, low energy milling gives rise to an increasingly higher volume fraction of wüstite in the Fe xO-Fe3O4 system while it promotes increasing amounts of magnesiowüstite (MgxFe1-xO). Sintering is performed from 673 to 1273 K in vacuum. Sintering at low temperatures allows retention of nanosized grains containing a fine dispersion of magnetic particles in a wüstite and magnesiowüstite matrix. Measurement of magnetic properties reflects the constitution of the sintered samples and the effect of grain size. It also allows determination of the transformation sequence both during mechanical milling and sintering.

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T2 - 21st International Materials Research Congress, IMRC 2012

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ER -

Nanostructured ceramic oxides containing ferrite nanoparticles and produced by mechanical milling

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