期刊
MATERIALS CHARACTERIZATION
卷 144, 期 -, 页码 120-130出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.matchar.2018.06.028
关键词
Mg-Zn-Ca/MgO composite; Mg/MgO interface; Solution treatment; Mechanical properties; Corrosion resistance
类别
资金
- Key Projects of the Joint Foundation of the National Natural Science Foundation of China [U1764254]
- Major Science and Technology Projects in Tianjin [15ZXQXSY00080]
- EPSRC [EP/N007638/1] Funding Source: UKRI
In order to improve the corrosion resistance and mechanical properties of magnesium alloys for biomedical implant applications, novel biodegradable Mg-3Zn-0.2Ca (wt%) matrix composites, reinforced by adding various contents of MgO nanoparticles (0.1, 0.2, 0.3, 0.5 wt%), were devised and prepared using high shear melt conditioning. An optimum solution treatment (450 degrees C, 48 h) and subsequent hot extrusion was carried out to produce the Mg-3Zn-0.2Ca/MgO composites. It was found that the as-extruded composite exhibited a fine grain structure with relatively uniformly distributed MgO particles. The orientation relationships (ORs) of (1 1 1)mgo similar to 2.62 degrees from (0 0 0 2)(alpha-Mg) and [0 - 1 1](Mgo) // [2 - 1 - 1 0](alpha-Mg), were observed between the MgO particles and the alpha-Mg matrix via high resolution transmission electron microscopy (HRTEM) investigation and fast Fourier transform (FFT) pattern analysis, verifying the excellent interfacial bonding between the phases. Additionally, a substantial reduction in the secondary phase content was found in the solution treated sample. In vitro immersion, electrochemical, and mechanical tensile tests were used to characterize the corrosion behavior and mechanical properties. The ultimate tensile strength (UTS) increased to 329.03 +/- 2.01 MPa and the yield tensile strength (YTS) increased by 22.81% with 0.5 wt% MgO loading, while the ductility did not substantially deteriorate. The polarization resistance (R-p) of the composite was shown to increase from 0.95 k Omega cm(2) to 2.02 k Omega cm(2) with the addition of 0.2 wt% MgO. With increasing MgO content, agglomeration of the MgO particles was detected in the analyzed composite, resulting in decreased ductility and the occurrence of pitting corrosion.
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