D-3 SURFACE MODIFICATION OF cp-Ti AND Ti-6Al-4V BY WET BLASTING TECHNIQUE FOR BIOMEDICAL APPLICATION(Session: Biomaterials)
スポンサーリンク
概要
- 論文の詳細を見る
The cp-Ti and Ti-6Al-4V substrates were blasted with HAp and HAp/Ti mixed powders at room temperature using a wet blasting machine. The surface of substrate was found to be coated with HAp and HAp/Ti composite which was clearly showed HAp peaks from both XRD and EDS analysis. Anyhow, CaTiO_3 was occurred at low volume ratio of HAp in HAp/Ti mixed powder. The HAp attached tightly to the substrate, at least at the microscope level. It was stable against ultrasonic vibration for at least 5 min. The reaction between HAp and its substrate might be strong mechanochemical bonding which could produce a strong coating for biomedical application.
- 一般社団法人日本機械学会の論文
- 2006-11-08
著者
-
Mutoh Yoshiharu
Dept. of Mechanical Engineer, Nagaoka University of Technology
-
Mutoh Yoshiharu
Dept. Of Mechanical Engineering Nagaoka University Of Technology
-
Rakngarm Achariya
Nagaoka University Of Technology
-
OYAMA Kousei
Nagaoka University of Technology
関連論文
- E-10 Effect of Fabricating Process on Fatigue Behavior of HSLA Steel(Session: Fatique/SCG)
- 435 Fatigue behavior of die-cast AM60 alloy under different environmental conditions
- 114 Effect of Corrosive Environment on Fatigue Strength of Magnesium alloy AZ-61
- D-3 SURFACE MODIFICATION OF cp-Ti AND Ti-6Al-4V BY WET BLASTING TECHNIQUE FOR BIOMEDICAL APPLICATION(Session: Biomaterials)
- OS11(1)-2(OS11W0243) Evaluation of Crack Initiation Limit in Fretting Fatigue Based on the Singular Stress Field near the Contact Edge
- 211 Preparation of Brushite Film on Titanium Substrate from Supersaturated Calcium Phosphate Solution by Electrolytic Deposition
- 2814 Plasma spraying of Ti or HAp/Ti bond coat on the titanium substrate for implant material
- OS12(4)-16(OS12W0248) The Fracture Criterion of a Crack under Mixed I, II and III Modes
- 503 Fretting Fatigue Behavior of 304 Austenitic Stainless Steel and Strength Prediction
- 606 Statistical approach to scatter of fatigue limit for magnesium alloy AZ61
- 621 Effect of physical characterization on the failure of hydroxyap atite coated layer on titanium Substrate