Surface micro‐structuring of zirconia dental implants

Objective Sandblasting with subsequent acid etching is a potential procedure to generate microstructured surfaces on zirconia implants. The aim of the study was to systematically analyze the effect of these process steps on surface morphology and mechanical strength of the implants. Materials and methods Zirconia implant blanks (ceramic.implant, VITA ) were sandblasted (105‐μm alumina, 6 bar), subsequently HF ‐etched, and finally heat‐treated at 1250°C. Surface topographies were documented by SEM . Surface roughness R a ( n  = 4), monoclinic volume fraction in the surface layer ( n  = 1), and static fracture load ( n  = 4) were measured. Results Surface roughness R a reached a maximum of 1.2 μm after 4× sandblasting. Scratches and sharp edges dominated the surface aspect. Fracture load increased with the number of sandblasting cycles with a gain of 30% after 20 cycles. HF etching did not change the R a values, but sharp edges were rounded and small pits created. A minor decrease in fracture load with increasing etching time was observed. Heat treatment of 1 h reduced the fracture load by 1/3. Longer heat treatment had no further effect. The roughness R a was not modified by heat treatment. Fracture load was strongly correlated with the monoclinic fraction except for the results obtained directly after acid etching, where a constant monoclinic fraction was observed. Conclusions Sandblasting with 105‐μm alumina followed by 1 h HF etching at room temperature and 1 h heat treatment at 1250°C is a reliable and tolerant process to create a surface roughness of about R a  = 1.2 μm on zirconia implants.