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Effect of pH fluctuations on the biodegradability of nanocomposite Mg-alloy in simulated bodily fluids

K. M. Zohdy, Rabab M. El-Sherif, and A. M. El-Shamy

Higher Technological Institute, 10Th of Ramadan City, Egypt

 

E-mail: am.elshamy@nrc.sci.eg

Received: 14 August 2022  Accepted: 11 October 2022

Abstract:

According to the National Institute of Health, the biodegradability, non-toxic nature, and remarkable natural and mechanical properties of magnesium and its components make them desirable choices for use in the production of supplies for biomedical implantation. Simulated bodily fluid (SBF) is used as a standard electrolyte for in vitro corrosion research. Each SBF module's independent and synergistic corrosion effects are studied in this study. Artificial pH variations increase degradation, according to the results. This experiment examined the Mg corrosion submerged in a SBF solution. The effect of pH changes on the rate of corrosion of Mg immersed in standard SBF solution was investigated. According to the previously published study, the corrosion process of Mg has been confirmed by scanning electron microscopy observations of damaged surface morphology. Because of these investigations, pH 7 was selected as the pH for bodily fluids since it is neutral.

Keywords: Biodegradability; Mg alloys; Microstructure analysis; Hardness measurements; Characterization techniques; Corrosion behavior

Full paper is available at www.springerlink.com.

DOI: 10.1007/s11696-022-02544-y

 

Chemical Papers 77 (3) 1317–1337 (2023)

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