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Biodegradable Magnesium Bone Implants Coated With A Novel Bioceramic Nanocomposite, Mehdi Razavi, Mohammadhossein Fathi, Omid Savabi, Lobat Tayebi, Daryoosh Vashaee
Biodegradable Magnesium Bone Implants Coated With A Novel Bioceramic Nanocomposite, Mehdi Razavi, Mohammadhossein Fathi, Omid Savabi, Lobat Tayebi, Daryoosh Vashaee
School of Dentistry Faculty Research and Publications
Magnesium (Mg) alloys are being investigated as a biodegradable metallic biomaterial because of their mechanical property profile, which is similar to the human bone. However, implants based on Mg alloys are corroded quickly in the body before the bone fracture is fully healed. Therefore, we aimed to reduce the corrosion rate of Mg using a double protective layer. We used a magnesium-aluminum-zinc alloy (AZ91) and treated its surface with micro-arc oxidation (MAO) technique to first form an intermediate layer. Next, a bioceramic nanocomposite composed of diopside, bredigite, and fluoridated hydroxyapatite (FHA) was coated on the surface of MAO treated AZ91 …
Is Cell Viability Always Directly Related To Corrosion Resistance Of Stainless Steels?, E. Salahinejad, M. Ghaffari, Daryoosh Vashaee, Lobat Tayebi
Is Cell Viability Always Directly Related To Corrosion Resistance Of Stainless Steels?, E. Salahinejad, M. Ghaffari, Daryoosh Vashaee, Lobat Tayebi
School of Dentistry Faculty Research and Publications
It has been frequently reported that cell viability on stainless steels is improved by increasing their corrosion resistance. The question that arises is whether human cell viability is always directly related to corrosion resistance in these biostable alloys. In this work, the microstructure and in vitro corrosion behavior of a new class of medical-grade stainless steels were correlated with adult human mesenchymal stem cell viability. The samples were produced by a powder metallurgy route, consisting of mechanical alloying and liquid-phase sintering with a sintering aid of a eutectic Mn–Si alloy at 1050 °C for 30 and 60 min, leading to …