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FRICTION STIR PROCESSING AND CLADDING: AN INNOVATIVE SURFACE ENGINEERING TECHNIQUE TO TAILOR MAGNESIUM-BASED ALLOYS FOR BIOMEDICAL IMPLANTS

Vishal Bhojak, Jinesh Kumar Jain, Tejendra Singh Singhal, Kuldeep K. Saxena, Chander Prakash, Manoj Kumar Agrawal, Vinayak Malik

2023Surface Review and Letters22 citationsDOI

Abstract

Regarding biocompatibility, toxicity, degradation, and interaction with body cells, the materials as well as fabrication process used for biomedical implants are crucial aspects. Implant materials are chosen in accordance with these criteria. The most recent medical implants are made of materials, i.e. stainless steel, Co–Cr and titanium alloys. Although these conventional implant materials generate hazardous ions and have a stress shield effect in many medical implant situations, the implants must be removed from the body within a certain period of time. In order to avoid the need for implant removal, researchers advise using magnesium metal matrix composite (Mg-MMC) as an implant material. Magnesium composites are subjected to a variety of engineering processes to enhance their mechanical and biocompatibility properties, including the addition of reinforcement, treating the surface, and changing the synthesis processes. The solid-state “friction stir process” is discussed for the fabrication of magnesium metal matrix composites. The influence of various reinforcing materials’, process parameters and reinforcing strategies are summarized in this review study with respect to the microstructure, mechanical characteristics, and corrosion behavior of biodegradable magnesium matrix composites. This study provides an importance of magnesium-based composites for biomedical implants and the degradation behavior reduces the secondary activities to remove implants.

Topics & Concepts

Materials scienceBiocompatibilityMagnesiumCladding (metalworking)Surface engineeringCorrosionFabricationComposite materialImplantMetallurgySurgeryAlternative medicineMedicinePathologyAluminum Alloys Composites PropertiesMagnesium Alloys: Properties and ApplicationsAdvanced Welding Techniques Analysis