Localized accelerated degradation of magnesium: A new insight into the mechanism of its biomedical degradation

Zhang, Yue,Yan, Kai,Xu, Wen,Wang, Cheng,Qian, Kun,Shao, Yi,Jiang, Genzhi,Liu, Huan,Ju, Jia,Höche, Daniel,Chu, Chenglin,Huang, Yuanding,Willumeit-Römer, Regine,Xue, Feng,Hort, Norbert,Bai, Jing

journal article

Localized accelerated degradation of magnesium: A new insight into the mechanism of its biomedical degradation

Abstract

Inhomogeneous degradation of Mg results in a potential safety risk for the application of its implants. The particular concern is the occurrence of localized accelerated degradation of Mg under the relatively enclosed condition. The present work investigated such a phenomenon using the Mg-4Zn tube in artificial blood plasma. Its occurrence mechanism was explored through elaborate experiments, including the hydrodynamic platform, real-time electrochemical detection, COMSOL simulation, and morphological observations. It is found the deficiency of Ca2+ and PO43+ in the localized solution induced by the excessively high pH value was responsible for its occurrence.

DOI Link to Publication

URL: https://publications.hereon.de/id/85752/
Authors:Zhang, Yue,Yan, Kai,Xu, Wen,Wang, Cheng,Qian, Kun,Shao, Yi,Jiang, Genzhi,Liu, Huan,Ju, Jia,Höche, Daniel,Chu, Chenglin,Huang, Yuanding,Willumeit-Römer, Regine,Xue, Feng,Hort, Norbert,Bai, Jing
Year:2024
In: Corrosion Science
Volume:237
Pages:112335
Publisher:Elsevier, Orlando
Type:journal article
ISSN: 0010-938X
Cite as: Zhang, Y.; Yan, K.; Xu, W.; Wang, C.; Qian, K.; Shao, Y.; Jiang, G.; Liu, H.; Ju, J.; Höche, D.; Chu, C.; Huang, Y.; Willumeit-Römer, R.; Xue, F.; Hort, N.; Bai, J.: Localized accelerated degradation of magnesium: A new insight into the mechanism of its biomedical degradation. Corrosion Science. 2024. vol. 237, 112335. DOI: 10.1016/j.corsci.2024.112335