Effect of Microarc Oxidation Treatment with Different Concentrations of MgSiF<sub>6</sub> on Titanium‐Porcelain Bonding Strength

In recent years, the application of titanium and its alloys for production of metal frameworks for metal-ceramic fixed partial dentures has been increasing. They are fabricated mainly by casting, CAD/CAM milling and selective laser melting. Manufacturing technologies affect the surface characteristics of the metal, which in turn affects the adhesion in the metal-ceramic system. Therefore, the purpose of the present paper is to analyze the information about the adhesion of dental ceramics to pure titanium and its alloys, emphasizing the methods most commonly applied to improve adhesion. Based on the papers published last ten years, the pure titanium and its alloys, the main technologies for their production and the porcelains applied in the fabrication of metal-ceramic fixed partial dentures are examined. It is summarised that the methods for increasing the adhesion strength of the porcelains to the titanium and Ti alloys can be classified into five large groups: mechanical, physical, chemical methods, application of bonding agents and combined treatments, as clear boundaries between them cannot be set. In the last decade, the successful technologies for improving the adhesion strength of Ti and its alloys to the porcelain usually consist of a combination of successive treatments of the metal surface. Abrasion of the titanium surface by sandblasting is most often used initially. At the next stage, a bonding agent or other type of intermediate layer of different coatings is applied to the metal, which further improves the adhesion strength to the porcelain.

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Review of microarc oxidation of titanium implant

Yang,

Meng,

Qian

et al. 2023

Journal of Vacuum Science &Amp; Technology B

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Titanium and titanium alloys are the most commonly used implant materials, but they are biologically inert. These materials lack rapid osseointegration and resistance to bacterial infections, problems that remain unsolved. The preparation of titanium dioxide coatings by microarc oxidation improves both the biocompatibility of titanium-based materials and their resistance to corrosion during long-term presence in the body. This paper discusses and summarizes the mechanisms of microarc oxidation and some classical models that need to be developed to provide a better understanding and guidance for future research. Subsequently, the effects of electrolyte type, additives, and surface modification of the microarc oxidized coating on the coating morphology were analyzed in detail. In addition, biological applications of microarc oxidation coatings are analyzed, including antimicrobial properties, osseointegration, hydrophilicity, corrosion resistance, and wear resistance.

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Effect of Microarc Oxidation Treatment with Different Concentrations of MgSiF₆ on Titanium‐Porcelain Bonding Strength

Cited by 3 publications

References 16 publications

Effects of sodium gluconate on hydration reaction, setting, workability, and strength development of calcium sulfoaluminate belite cement mixtures

Effects of sodium gluconate on hydration reaction, setting, workability, and strength development of calcium sulfoaluminate belite cement mixtures

Adhesion of dental ceramic materials to titanium and titanium alloys: a review

Review of microarc oxidation of titanium implant

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Effect of Microarc Oxidation Treatment with Different Concentrations of MgSiF6 on Titanium‐Porcelain Bonding Strength

Cited by 3 publications

References 16 publications

Effects of sodium gluconate on hydration reaction, setting, workability, and strength development of calcium sulfoaluminate belite cement mixtures

Effects of sodium gluconate on hydration reaction, setting, workability, and strength development of calcium sulfoaluminate belite cement mixtures

Adhesion of dental ceramic materials to titanium and titanium alloys: a review

Review of microarc oxidation of titanium implant

Contact Info

Product

Resources

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Effect of Microarc Oxidation Treatment with Different Concentrations of MgSiF₆ on Titanium‐Porcelain Bonding Strength