Pamela Quiroz scite author profile

Pamela Quiroz

4Publications

12Citation Statements Received

17Citation Statements Given

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Technische Universität Ilmenau

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Effect of titanium ion substitution in the barium hexaferrite studied by Mössbauer spectroscopy and X-ray diffraction

et al. 2011

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A series of M-type barium hexaferrite has been synthesized in a glass melt by partially substituting the Fe 2 O 3 with TiO 2 for investigation of their structure. The glass melt has the basic composition (mol%): 40 BaO + 33 B 2 O 3 + (27-x) Fe 2 O 3 + x TiO 2 with x = 0, 3.6, 5.4 and 7.2 mol% TiO 2 . The substituted ferrites were studied by means of X-ray diffraction, Mössbauer spectroscopy and vibration sample magnetometer. X-ray diffraction studies revealed that not all samples have a single ferritic phase, a small second phase corresponding to BaTi 6 O 13 was also observed to form. The Mössbauer spectra changed from magnetically ordered (x = 0) to magnetically ordered with strong line broadening. Moreover, the broadening increases with TiO 2 content. The Mössbauer parameters suggested that Ti 4+ occupies the 2a and 12k crystal sites, and the Ti 4+ substitution on the 2b and 4f 2 site also occurs at high melt dopings. Therefore, coercivity and saturation magnetization decreased.

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Iron oxide nanopowder synthesized by electroerosion dispersion (EED) – Properties and potential for microwave applications

Halbedel

Prikhna

Quiroz

et al. 2018

Current Applied Physics

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Effect of titanium ion substitution in the barium hexaferrite studied by Mössbauer spectroscopy and X-ray diffraction

Quiroz¹,

Halbedel²,

Bustamante³

et al. 2011

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A crystallization conditions study of the Ti‐doped barium hexaferrite powders synthesized with the glass crystallization technique for microwave applications

Quiroz¹,

Halbedel

2011

Materialwissenschaft Werkst

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For microwave applications Titanium doped M-type hexagonal ferrites have been synthesized by means of glass crystallization technique varying the crystallization parameters and the melt doping concentrations. The chosen melt dopings were x = 5.4 and 7.2 mole-% TiO 2 with the following basic composition (mole-%): 40 BaO + 33 B 2 O 3 + (27-x) Fe 2 O 3 + x TiO 2 . We have studied the dependencies between the magnetic properties, the valence of the iron ions in the glasses and the powders, the formation of new dielectric phases and the microwave absorption. After the Ti 4+ ions substitutions, the magnetocrystalline anisotropy changed, this effect was observed in the static magnetic properties ( J H C and M S ) measured using a vibration sample magnetometer. Furthermore the Ti 4+ ions preferably occupy mainly the 2a as well as slightly the 2b sites in the lattice of the barium hexaferrite, which are studied using Mössbauer spectroscopy. Besides, the X-ray diffraction studies proved that the formation of the ferrimagnetic (BaFe 12-x Ti x O 12 ) and dielectric (BaTi 6 O 13 ) phases are dependent on the crystallization parameters. The controlled influencing of lattice sites occupation and of the Fe 2+ content in the ferrimagnetic phase as well as the controlled formation of the dielectric phase rate during the annealing are possibilities to optimize the microwave absorption of Ti-doped barium hexaferrite powders synthesized by glass crystallization technique.Keywords: barium hexaferrite / microwave absorber / Mössbauer spectroscopy / titanium substitution / X-ray diffraction / Im vorliegenden Beitrag werden für Mikrowellenanwendungen Titan-dotierte hexagonale M-Typ Ferrite in einer schnellgekühlten Glasschmelze der Grundzusammensetzung (mol-%): 40 + 33 B 2 O 3 BaO + (27-x) Fe 2 O 3 + x TiO 2 mit der Glaskristallisationstechnik bei Variation der Schmelzdotierung und der Kristallisationsparameter hergestellt. Die gewählten Schmelzdotierungen sind x = 5,4 und 7,2 Mol-% TiO 2 . Dabei wird insbesondere der Einfluss der Schmelzdotierung und der Temperbedingungen auf die magnetischen Eigenschaften, die Wertigkeit der Eisenionen im Glas und in den Pulvern, die Phasenbildung im Glas und die Mikrowellenabsorption der Pulver untersucht.

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Pamela Quiroz

Effect of titanium ion substitution in the barium hexaferrite studied by Mössbauer spectroscopy and X-ray diffraction

Iron oxide nanopowder synthesized by electroerosion dispersion (EED) – Properties and potential for microwave applications

Effect of titanium ion substitution in the barium hexaferrite studied by Mössbauer spectroscopy and X-ray diffraction

A crystallization conditions study of the Ti‐doped barium hexaferrite powders synthesized with the glass crystallization technique for microwave applications

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