Calcium phosphate coating formed on titanium scaffold by plasma electrolytic oxidation

Authors

  • A.N. Sagidugumar
  • D.S. Dogadkin
  • B.N. Azamatov
  • A. Turlybekuly
  • S.O. Rudenko

DOI:

https://doi.org/10.31489/2022ph2/32-36

Keywords:

titanium, calcium phosphate, plasma electrolytic oxidation, protective coatings, bioactivity, hydroxyapatite, implant, osteogenesis

Abstract

The article provides the results of the preparation of calcium phosphate coatings by plasma electrolytic oxidation. Calcium phosphate coatings are formed on titanium scaffolds with a porous structure. Titanium scaffolds are products of additive manufacturing equipment by selective laser melting. The morphology of the obtained coating, phase and elemental composition are described, the Ca/P ratio of the coating is dete rmined. The surface of the scaffold is porous due to the baking of powder particles during production. XRD analysis shows the presence of calcium phosphate and oxide compounds. The resulting oxide coating is evenly distributed over the porous surface of the scaffold. Titanium, aluminum and vanadium are located in the areas of the coating free of calcium phosphate particles. The average Ca/P ratio for the resulting coating was 2.48. This value is close to the Ca/P ratio in human bone. It is concluded that the use of the PEO method is promising for the manufacture of scaffolds with a porous structure with calcium phosphate coatings for use in traumatology and orthopedics. The use of titanium scaffolds with a porous structure with calcium phosphate coatings will improve the osseointegration of implants and exclude the possibility of implant failure.

Additional Files

Published

2022-06-30

Issue

Section

TECHNICAL PHYSICS

Received

2023-11-23