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Synthesis and Characterization of Magnesium Alloy Surface Composite (AZ91D – SiO2) by Friction Stir Processing for Bioimplants

Publication Type : Journal Article

Publisher : Silicon, Springer Netherlands,

Source : Silicon, Springer Netherlands, Volume 12 (2020)

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Keywords : AZ91, biocompatibility, Bioimplants, Bone, Calcium phosphate, corrosion, Corrosion rate, Friction, Friction stir processing, Friction stir welding, Hydroxyapatite, Magnesium alloys, Magnesium compounds, Phosphates, Silica, Silicon alloys, SiO2, Surface composites

Campus : Coimbatore

School : School of Engineering

Department : Mechanical Engineering

Year : 2019, 2020

Abstract : Magnesium shows potential for bioimplant applications because of its high biocompatibility and equivalent bone strength. However, the high corrosion rate of magnesium and magnesium alloys in the physiological environment results in the rapid evolution of H2 gas, which is lethal to the neighboring tissues. With an intention to reduce the corrosion rate, magnesium alloy AZ91D is reinforced with nanophase SiO2 to fabricate surface composite by friction stir processing. The metallurgical characterization reveals the refinement of grains, fine dispersion of β phase and nanophase SiO2 in the composite matrix. The surface characterization of the corrosion products depicts the formation of an adherent layer of corrosion products that are rich in calcium hydroxyapatite and calcium-magnesium phosphate. The combined consequence of metallurgical and corrosion phenomenon reduces the corrosion rate, aids bone growth, and augments implant-bone integration. The results demonstrate that AZ91D-SiO2 composite is an effective material for bioimplant applications. [Figure not available: see fulltext.]. © 2019, Springer Nature B.V.

Cite this Research Publication : Vaira Vignesh R., Dr. Padmanaban R., and Dr. Govindaraj M., “Synthesis and Characterization of Magnesium Alloy Surface Composite (AZ91D - SiO2) by Friction Stir Processing for Bioimplants”, Silicon, vol. 12, 2020.

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