Fabrication and Characterization of Porous Sintered Ti--Ag Compacts for Biomedical Application Purpose

Porous sintered Ti-Ag compacts with different Ag content were fabricated by powder metallurgy. The associated hydrothermal treatment and the effect on the apatite formation were studied. The results suggested that TiO was generated under the condition of low vacuum (1 ×10^-2 Pa) during the process o...

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Bibliographic Details
Published inJournal of materials science & technology Vol. 29; no. 4; pp. 330 - 338
Main Authors Hou, Legan, Li, Li, Zheng, Yufeng
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2013
Subjects
Ag content
Apatite-inducing ability
Biocompatibility
Combustion
Compacts
Hydrothermal treatment
Porous sintered Ti–Ag compacts
Silver
Sintering
Surgical implants
TiO
Titanium
制备
多孔钛
应用程序
烧结
生物医学
表征
诱导能力
Hydrothermal treatment
Ag content
Apatite-inducing ability
Porous sintered Ti–Ag compacts
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Summary:Porous sintered Ti-Ag compacts with different Ag content were fabricated by powder metallurgy. The associated hydrothermal treatment and the effect on the apatite formation were studied. The results suggested that TiO was generated under the condition of low vacuum (1 ×10^-2 Pa) during the process of burning out the spacer-holding particles. After hydrothermal treatment, a sub-microscale porous layer was formed at the pore wall surface of the samples. The apatite-inducing ability of hydrothermal treated porous sintered Ti-Ag compacts with different Ag content was evaluated in modified simulated body fluid (SBF). And the results proved that there is a clear correlation between the apatite-inducing ability and Ag content. The higher Ag content in porous leads to the decrease of Na+ ions and basic hydroxyl (OH)b amount, resulting in the decline of apatite-inducing ability in the first stage. However, their apatite-inducing ability was not significantly different from that of Ti after two weeks SBF immersing. Hence, the ionic activity should restore with the processing of SBF soaking, as the saturation of Ag effect.
Bibliography:21-1315/TG
Porous sintered Ti-Ag compacts with different Ag content were fabricated by powder metallurgy. The associated hydrothermal treatment and the effect on the apatite formation were studied. The results suggested that TiO was generated under the condition of low vacuum (1 ×10^-2 Pa) during the process of burning out the spacer-holding particles. After hydrothermal treatment, a sub-microscale porous layer was formed at the pore wall surface of the samples. The apatite-inducing ability of hydrothermal treated porous sintered Ti-Ag compacts with different Ag content was evaluated in modified simulated body fluid (SBF). And the results proved that there is a clear correlation between the apatite-inducing ability and Ag content. The higher Ag content in porous leads to the decrease of Na+ ions and basic hydroxyl (OH)b amount, resulting in the decline of apatite-inducing ability in the first stage. However, their apatite-inducing ability was not significantly different from that of Ti after two weeks SBF immersing. Hence, the ionic activity should restore with the processing of SBF soaking, as the saturation of Ag effect.
Porous sintered Ti-Ag compacts; Ag content; Hydrothermal treatment; Apatite-inducing ability
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:1005-0302
1941-1162
DOI:10.1016/j.jmst.2013.02.013