摘要
As yet,Mg alloys acting as the medical implants have drawn extensive attention,due to their spontaneous degrada bility,effective load-transmissibility and the excellent biocompatibility,particularly in bone tissue reconstruction and vascular radial-support.Regrettably,they were inevitably affected by the tension/compression-torsion,dynamic erosion and corrosion fatigue under complex service conditions,which lead to premature failure of implantation-materials.Micro-alloying addition is an effective way to delay the rapid degradation,especially in rare-earth micro-composite addition.It can not only reduce intensities of galvanic-corrosion by refining the grain sizes and adjusting the Volta-potentials distribution of the precipitates,but also modify the compositions and biocompatibility of the degradation products.Moreover,the higher compress tress on the surface can improve the stability and densification of the film layer,which enhanced the corrosion resistance.Thus,the latest research progress about in vivo/vitro degradation behavio rs and bioco mpatibility of rare-earth Mg alloys is reviewed;The internal relationships between rare-earth elements,phase features and degradation behaviors of Mg alloys are summarized.Moreover,the effects of rare-earth addition on the film-characteristics are deeply explained,and the induced mechanisms of rare earth elements on the biocompatibility are revealed.
基金
Project supported by the Central Government Guided Local Science and Technology Development Funds (226Z1004G)
Natural Science Foundation of Hebei Province (E2020209153)
State Key Lab of Advanced Metals and Materials (2020-Z12)。
