Preparation of hydroxyapatite-titania hybrid coatings on titanium alloy

## Abstract During clinical use of hydroxyapatite‐coated implants, mechanical stresses are added to pre‐existing residual stresses. The magnitude of these stresses affects the coating's performance. In this work we studied, by neutron diffraction and conventional X‐ray diffraction methods, the macr

## Abstract Composite coatings containing brushite (CaHPO~4~ · 2H~2~O) and chitosan were prepared by electrochemical deposition. The brushite/chitosan composites were converted to hydroxyapatite/chitosan composites in aqueous solutions of sodium hydroxide. The coatings ranged from ≈1 to 15% chitosa

Details of a procedure for electrolytically preparing highly pure brushite (CaHPO, . 2H,O) coatings on high surface area metal substrates are provided. The influence of current density and deposition time on coating morphology is described. After a discussion of procedures used to convert the brushi

## Abstract Bioceramic coatings like hydroxyapatite (HA) have shown promising bioactive properties in load‐bearing implant applications. The aim of this work is to deposit functionally graded HA/Ti layers consisting of an underlying Ti bond coat, the alternating layer, and an HA top‐layer on Ti6Al4

## Abstract This study reports a discharging method for bone‐like carbonated HA (cHA)‐coating (Ca/P 1.71) and stoichiometric HA (sHA)‐coating (Ca/P 1.67) with micrometer order thicknesses on titanium plates, using modified body fluid and acidic calcium phosphate solutions, respectively. __In vivo__

## Abstract Hydroxyapatite (HA) coatings were deposited on titanium substrates by electrophoretic deposition (EPD) at constant voltage and dynamic voltage, respectively. Various surface morphologies were observed under different type of voltages. Under a constant voltage of 20 V, a dense HA coating