Microscopical imaging of hydroxyapatite/mica composite and packed hydroxyapatite structure - An atomic force microscopy investigation

E. G. Nordström; A. T. Yokobori; T. Yokobori; Y. Aizawa

doi:10.3233/bme-1997-7501

Microscopical imaging of hydroxyapatite/mica composite and packed hydroxyapatite structure - An atomic force microscopy investigation

E. G. Nordström, A. T. Yokobori, T. Yokobori, Y. Aizawa

Research output: Contribution to journal › Article › peer-review

2 Citations (Scopus)

Abstract

A fine grained hydroxyapatite/mica composite material was studied by the atomic force microscopy method and the results were compared with results of atomic force microscopy studies of very five grained hydroxyapatite. In the investigation it was found that the fractal dimension diagram from the atomic force microscopy studies is a tool by which mechanical properties on the surface of the material can be predicted. The two investigated materials were found to show self-similarity properties, i.e., they are identical on the surface. The information given by the fractal dimension is important, and the fractal dimension analysis is an important tool in future designing and engineering of, especially, bioceramics and composites.

Original language	English
Pages (from-to)	285-289
Number of pages	5
Journal	Bio-medical materials and engineering
Volume	7
Issue number	5
DOIs	https://doi.org/10.3233/bme-1997-7501
Publication status	Published - 1997

Keywords

Atomic force microscopy
Hydroxyapatite
Hydroxyapatite/mica composite
Self-similarity

ASJC Scopus subject areas

Biomaterials
Biomedical Engineering

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10.3233/bme-1997-7501

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abstract = "A fine grained hydroxyapatite/mica composite material was studied by the atomic force microscopy method and the results were compared with results of atomic force microscopy studies of very five grained hydroxyapatite. In the investigation it was found that the fractal dimension diagram from the atomic force microscopy studies is a tool by which mechanical properties on the surface of the material can be predicted. The two investigated materials were found to show self-similarity properties, i.e., they are identical on the surface. The information given by the fractal dimension is important, and the fractal dimension analysis is an important tool in future designing and engineering of, especially, bioceramics and composites.",

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AU - Nordström, E. G.

AU - Yokobori, A. T.

AU - Yokobori, T.

AU - Aizawa, Y.

PY - 1997

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AB - A fine grained hydroxyapatite/mica composite material was studied by the atomic force microscopy method and the results were compared with results of atomic force microscopy studies of very five grained hydroxyapatite. In the investigation it was found that the fractal dimension diagram from the atomic force microscopy studies is a tool by which mechanical properties on the surface of the material can be predicted. The two investigated materials were found to show self-similarity properties, i.e., they are identical on the surface. The information given by the fractal dimension is important, and the fractal dimension analysis is an important tool in future designing and engineering of, especially, bioceramics and composites.

KW - Atomic force microscopy

KW - Hydroxyapatite

KW - Hydroxyapatite/mica composite

KW - Self-similarity

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Microscopical imaging of hydroxyapatite/mica composite and packed hydroxyapatite structure - An atomic force microscopy investigation

Abstract

Keywords

ASJC Scopus subject areas

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