Orientation control in multilayered alumina prepared using electrophoretic deposition in a strong magnetic field

Tohru Suzuki, T. Uchikoshi, K. Morita, K. Hiraga, Y. Sakka

Research output: Chapter in Book/Report/Conference proceedingConference contribution

1 Citation (Scopus)

Abstract

We have reported that development of texture can be controlled by colloidal processing in a strong magnetic field followed by heating even for diamagnetic ceramics such as alumina, titania and so on. We demonstrate in this study that alumina/alumina laminar composites with different crystalline-oriented layer are produced by electrophoretic deposition (EPD) in a strong magnetic field. This composite was fabricated by alternately changing the angle between the directions of the magnetic and electric fields layer by layer during EPD in 12T. The grains in alternate layers are aligned differently.

Original languageEnglish
Title of host publicationAdvanced Materials and Processing IV - Selected, peer reviewed papers presented at the 4th International Conference on Advanced Materials and Processing
PublisherTrans Tech Publications
Pages223-226
Number of pages4
ISBN (Print)0878494669, 9780878494668
Publication statusPublished - 2007 Jan 1
Externally publishedYes
Event4th International Conference on Advanced Materials and Processing, ICAMP-4 - Hamilton, New Zealand
Duration: 2006 Dec 102006 Dec 13

Publication series

NameAdvanced Materials Research
Volume29-30
ISSN (Print)1022-6680

Conference

Conference4th International Conference on Advanced Materials and Processing, ICAMP-4
CountryNew Zealand
CityHamilton
Period06/12/1006/12/13

Fingerprint

Alumina
Magnetic fields
Composite materials
Titanium
Textures
Electric fields
Crystalline materials
Heating
Processing

Keywords

  • Alumina
  • Electrophoretic deposition
  • Layered structure
  • Strong magnetic field
  • Texture

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Suzuki, T., Uchikoshi, T., Morita, K., Hiraga, K., & Sakka, Y. (2007). Orientation control in multilayered alumina prepared using electrophoretic deposition in a strong magnetic field. In Advanced Materials and Processing IV - Selected, peer reviewed papers presented at the 4th International Conference on Advanced Materials and Processing (pp. 223-226). (Advanced Materials Research; Vol. 29-30). Trans Tech Publications.

Orientation control in multilayered alumina prepared using electrophoretic deposition in a strong magnetic field. / Suzuki, Tohru; Uchikoshi, T.; Morita, K.; Hiraga, K.; Sakka, Y.

Advanced Materials and Processing IV - Selected, peer reviewed papers presented at the 4th International Conference on Advanced Materials and Processing. Trans Tech Publications, 2007. p. 223-226 (Advanced Materials Research; Vol. 29-30).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Suzuki, T, Uchikoshi, T, Morita, K, Hiraga, K & Sakka, Y 2007, Orientation control in multilayered alumina prepared using electrophoretic deposition in a strong magnetic field. in Advanced Materials and Processing IV - Selected, peer reviewed papers presented at the 4th International Conference on Advanced Materials and Processing. Advanced Materials Research, vol. 29-30, Trans Tech Publications, pp. 223-226, 4th International Conference on Advanced Materials and Processing, ICAMP-4, Hamilton, New Zealand, 06/12/10.
Suzuki T, Uchikoshi T, Morita K, Hiraga K, Sakka Y. Orientation control in multilayered alumina prepared using electrophoretic deposition in a strong magnetic field. In Advanced Materials and Processing IV - Selected, peer reviewed papers presented at the 4th International Conference on Advanced Materials and Processing. Trans Tech Publications. 2007. p. 223-226. (Advanced Materials Research).
Suzuki, Tohru ; Uchikoshi, T. ; Morita, K. ; Hiraga, K. ; Sakka, Y. / Orientation control in multilayered alumina prepared using electrophoretic deposition in a strong magnetic field. Advanced Materials and Processing IV - Selected, peer reviewed papers presented at the 4th International Conference on Advanced Materials and Processing. Trans Tech Publications, 2007. pp. 223-226 (Advanced Materials Research).
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