Enhanced adhesion of plasma‐sprayed commercially pure titanium porous coatings to polished Mg‐PSZ ceramic substrates

Abstract: The purpose of this study was to evaluate the suitability of a plasma sprayed titanium porous coating on polished magnesia‐stabilized zirconia (Mg‐PSZ) ceramic surfaces. We hypothesized that diffusion bonding was responsible for the adhesion of the coating to the ceramic substrate. Mg‐PSZ tensile test coupons were vibratory polished (roughness Sa = 0.50 μm) or vibratory polished/lapped (Sa = 0.12 μm) before coating and testing. The exposed surfaces after tensile testing were examined by energy dispersive X‐ray… Show more

“…It not only retains the advantages of dense Ti (dTi) but also reduces the disadvantage of stress shielding of Ti-based implants because of its declined elastic modulus. Thus far, various methods for preparation of pTi, including plasma spraying [ 2 , 3 ], powder sintering [ 4 ], slurry foaming [ 5 , 6 ], foam impregnation [ 7 , 8 ], 3D printing [ 9 , 10 ] and so on, were developed and contributed to the biomedical applications. Even so, the biological inertness of Ti metal in nature cannot be altered by introduction of porous structure.…”

The optimized preparation of HA/L-TiO2/D-TiO2 composite coating on porous titanium and its effect on the behavior osteoblasts

“…It not only retains the advantages of dense Ti (dTi) but also reduces the disadvantage of stress shielding of Ti-based implants because of its declined elastic modulus. Thus far, various methods for preparation of pTi, including plasma spraying [ 2 , 3 ], powder sintering [ 4 ], slurry foaming [ 5 , 6 ], foam impregnation [ 7 , 8 ], 3D printing [ 9 , 10 ] and so on, were developed and contributed to the biomedical applications. Even so, the biological inertness of Ti metal in nature cannot be altered by introduction of porous structure.…”

The optimized preparation of HA/L-TiO2/D-TiO2 composite coating on porous titanium and its effect on the behavior osteoblasts

Critical Overview of Coatings Technology for Metal Matrix Composites