Evaluation of hydroxyapatite film by powder jet deposition after artificial aging

Ryo Akatsuka; Ken Matsumura; Miyoko Noji; Chihiro Nishikawa; Kei Sato; Takayuki Hagiwara; Takahisa Anada; Osamu Suzuki; Tunemoto Kuriyagawa; Keiichi Sasaki

doi:10.4028/www.scientific.net/KEM.529-530.229

Evaluation of hydroxyapatite film by powder jet deposition after artificial aging

Ryo Akatsuka, Ken Matsumura, Miyoko Noji, Chihiro Nishikawa, Kei Sato, Takayuki Hagiwara, Takahisa Anada, Osamu Suzuki, Tunemoto Kuriyagawa, Keiichi Sasaki

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

Abstract

This study aimed to create a thick hydroxyapatite (HAp) film on the surface of a human tooth by using a newly developed powder jet deposition (PJD) device for dental handpieces, and sought to examine the microstructural and mechanical properties of the resulting HAp film. The film was evaluated on three-dimensional view, surface roughness, Vickers hardness, and bonding strength before and after artificial aging through thermal cycling (5-55°C) for 500 cycles (30 sec for each cycle, 20 sec of dwell time). The HAp particles in the deposited film were densely packed, and the HAp film's three-dimensional microstructure and its rough surface were maintained after thermal cycling. There was no significant difference in either the HAp film's Vickers hardness or the bonding strength between the film and the enamel substrate before and after thermal cycling. The HAp films created in this study demonstrated excellent microstructural and mechanical properties even after the application of thermal stress. We demonstrated the possibility of using a new type of powder jet deposition (PJD) method we developed to form a new type of interface between the tooth and biomaterials. Consequently, we propose the use of this method in new dental treatments.

Original language	English
Title of host publication	Bioceramics 24
Publisher	Trans Tech Publications Ltd
Pages	229-232
Number of pages	4
Edition	1
ISBN (Print)	9783037855171
DOIs	https://doi.org/10.4028/www.scientific.net/KEM.529-530.229
Publication status	Published - 2013
Externally published	Yes
Event	24th Symposium and Annual Meeting of International Society for Ceramics in Medicine, ISCM 2012 - Fukuoka, Japan Duration: Oct 21 2012 → Oct 24 2012

Publication series

Name	Key Engineering Materials
Number	1
Volume	529-530
ISSN (Print)	1013-9826
ISSN (Electronic)	1662-9795

Other

Other	24th Symposium and Annual Meeting of International Society for Ceramics in Medicine, ISCM 2012
Country/Territory	Japan
City	Fukuoka
Period	10/21/12 → 10/24/12

All Science Journal Classification (ASJC) codes

Materials Science(all)
Mechanics of Materials
Mechanical Engineering

Access to Document

10.4028/www.scientific.net/KEM.529-530.229

Cite this

Akatsuka, R., Matsumura, K., Noji, M., Nishikawa, C., Sato, K., Hagiwara, T., Anada, T., Suzuki, O., Kuriyagawa, T., & Sasaki, K. (2013). Evaluation of hydroxyapatite film by powder jet deposition after artificial aging. In Bioceramics 24 (1 ed., pp. 229-232). (Key Engineering Materials; Vol. 529-530, No. 1). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/KEM.529-530.229

Akatsuka, R, Matsumura, K, Noji, M, Nishikawa, C, Sato, K, Hagiwara, T, Anada, T, Suzuki, O, Kuriyagawa, T & Sasaki, K 2013, Evaluation of hydroxyapatite film by powder jet deposition after artificial aging. in Bioceramics 24. 1 edn, Key Engineering Materials, no. 1, vol. 529-530, Trans Tech Publications Ltd, pp. 229-232, 24th Symposium and Annual Meeting of International Society for Ceramics in Medicine, ISCM 2012, Fukuoka, Japan, 10/21/12. https://doi.org/10.4028/www.scientific.net/KEM.529-530.229

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abstract = "This study aimed to create a thick hydroxyapatite (HAp) film on the surface of a human tooth by using a newly developed powder jet deposition (PJD) device for dental handpieces, and sought to examine the microstructural and mechanical properties of the resulting HAp film. The film was evaluated on three-dimensional view, surface roughness, Vickers hardness, and bonding strength before and after artificial aging through thermal cycling (5-55°C) for 500 cycles (30 sec for each cycle, 20 sec of dwell time). The HAp particles in the deposited film were densely packed, and the HAp film's three-dimensional microstructure and its rough surface were maintained after thermal cycling. There was no significant difference in either the HAp film's Vickers hardness or the bonding strength between the film and the enamel substrate before and after thermal cycling. The HAp films created in this study demonstrated excellent microstructural and mechanical properties even after the application of thermal stress. We demonstrated the possibility of using a new type of powder jet deposition (PJD) method we developed to form a new type of interface between the tooth and biomaterials. Consequently, we propose the use of this method in new dental treatments.",

author = "Ryo Akatsuka and Ken Matsumura and Miyoko Noji and Chihiro Nishikawa and Kei Sato and Takayuki Hagiwara and Takahisa Anada and Osamu Suzuki and Tunemoto Kuriyagawa and Keiichi Sasaki",

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AB - This study aimed to create a thick hydroxyapatite (HAp) film on the surface of a human tooth by using a newly developed powder jet deposition (PJD) device for dental handpieces, and sought to examine the microstructural and mechanical properties of the resulting HAp film. The film was evaluated on three-dimensional view, surface roughness, Vickers hardness, and bonding strength before and after artificial aging through thermal cycling (5-55°C) for 500 cycles (30 sec for each cycle, 20 sec of dwell time). The HAp particles in the deposited film were densely packed, and the HAp film's three-dimensional microstructure and its rough surface were maintained after thermal cycling. There was no significant difference in either the HAp film's Vickers hardness or the bonding strength between the film and the enamel substrate before and after thermal cycling. The HAp films created in this study demonstrated excellent microstructural and mechanical properties even after the application of thermal stress. We demonstrated the possibility of using a new type of powder jet deposition (PJD) method we developed to form a new type of interface between the tooth and biomaterials. Consequently, we propose the use of this method in new dental treatments.

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Evaluation of hydroxyapatite film by powder jet deposition after artificial aging

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