Preparation and Characterization of Pure-Phase Co^sub 2^Y Ferrite Powders via a Scalable Aqueous Coprecipitation Method
Aqueous chemical coprecipitation methods have been developed to produce large quantities, 12 g per batch, of pure-phase ...-type hexaferrite powders. X-ray diffraction studies showed that sintering temperatures as low as 900...C were sufficient to produce a single-phase Y-type hexaferrite material....
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| Veröffentlicht in: | Journal of the American Ceramic Society 2010-10, Vol.93 (10), p.2994 |
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| container_title | Journal of the American Ceramic Society |
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| creator | Daigle, Andrew DuPre, Eric Geiler, Anton Chen, Yajie Parimi, Pat V Vittoria, Carmine Harris, Vincent G |
| description | Aqueous chemical coprecipitation methods have been developed to produce large quantities, 12 g per batch, of pure-phase ...-type hexaferrite powders. X-ray diffraction studies showed that sintering temperatures as low as 900...C were sufficient to produce a single-phase Y-type hexaferrite material. The method has also been shown to lend itself to efficient scale up, leading to large batch production. The growth of particles as a function of time and temperature in a single-step sintering process, as opposed to multiple annealing and sintering processes required in conventional ceramic processing, was explored. Size and shape of particles have been characterized by scanning electron microscopy, while the magnetic properties were studied by vibrating sample magnetometry. Measured structural and magnetic properties are closely matched with those of bulk ceramic materials, indicating that the proposed approach may serve as a large-scale, cost-effective substitute to conventional ceramic processing of hexagonal ferrite materials. (ProQuest: ... denotes formulae/symbols omitted.) |
| format | Article |
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X-ray diffraction studies showed that sintering temperatures as low as 900...C were sufficient to produce a single-phase Y-type hexaferrite material. The method has also been shown to lend itself to efficient scale up, leading to large batch production. The growth of particles as a function of time and temperature in a single-step sintering process, as opposed to multiple annealing and sintering processes required in conventional ceramic processing, was explored. Size and shape of particles have been characterized by scanning electron microscopy, while the magnetic properties were studied by vibrating sample magnetometry. Measured structural and magnetic properties are closely matched with those of bulk ceramic materials, indicating that the proposed approach may serve as a large-scale, cost-effective substitute to conventional ceramic processing of hexagonal ferrite materials. 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| ispartof | Journal of the American Ceramic Society, 2010-10, Vol.93 (10), p.2994 |
| issn | 0002-7820 1551-2916 |
| language | eng |
| recordid | cdi_proquest_journals_762237553 |
| source | Wiley Online Library Journals Frontfile Complete |
| subjects | Aqueous chemistry Ceramics Chemical precipitation Ferrites Materials science Sintering |
| title | Preparation and Characterization of Pure-Phase Co^sub 2^Y Ferrite Powders via a Scalable Aqueous Coprecipitation Method |
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