Article ID Journal Published Year Pages File Type
5431436 Bioactive Materials 2017 9 Pages PDF
Abstract

•High melt shear mixing technology was used to melt MZZT and MZZMT composites.•Formation mechanism and optimum properties of MZZT and MZZMT composites were studied.•β-TCP particles can be coated with MgO using chemical precipitation method.•Compared with β-TCP, dispersion and size of m-β-TCP nanoparticles is improved.•This research equipment is simple, low cost, and easy to operate.

The mechanical properties and corrosion resistance of magnesium alloy composites were improved by the addition of MgO surface modified tricalcium phosphate ceramic nanoparticles (m-β-TCP). Mg-3Zn-0.8Zr composites with unmodified (MZZT) and modified (MZZMT) nanoparticles were produced by high shear mixing technology. Effects of MgO m-β-TCP nanoparticles on the microstructure, mechanical properties, electrochemical corrosion properties and cytocompatibility of Mg-Zn-Zr/β-TCP composites were investigated. After hot extrusion deformation and dynamic recrystallization, the grain size of MZZMT was the half size of MZZT and the distribution of m-β-TCP particles in the matrix was more uniform than β-TCP particles. The yield tensile strength (YTS), ultimate tensile strength (UTS), and corrosion potential (Ecorr) of MZZMT were higher than MZZT; the corrosion current density (Icorr) of MZZMT was lower than MZZT. Cell proliferation of co-cultured MZZMT and MZZT composite samples were roughly the same and the cell number at each time point is higher for MZZMT than for MZZT samples.

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Physical Sciences and Engineering Materials Science Biomaterials
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