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A review on biomedical implant materials and the effect of friction stir based techniques on their mechanical and tribological properties

Kaveh Moghadasi, M. Isa, Mohammad Ashraf bin Ariffin, Muhammad Jamil, Sufian Raja, Bo Wu, M. El Yamani, Mohd Ridha Muhamad, Farazila Yusof, Mohd Fadzil Jamaludin, Mohd Sayuti Ab Karim, Bushroa binti Abdul Razak, Y. Nukman

2022Journal of Materials Research and Technology197 citationsDOIOpen Access PDF

Abstract

Various biomedical implants for prolonged usage in the human body have been created in recent years in a massive and steadily increasing number. Friction stir techniques are solid-state procedures used to improve the grain structure of biomaterials or to connect two workpieces while retaining their essential physical characteristics. This article primarily discusses the multidisciplinary topic of biocompatible implant surfaces from a microstructural, tribological, and mechanical strength perspective. It provides an overview of the most frequently used biomaterials, including metals such as steel, magnesium, and titanium, as well as polymers such as polyethylyne and polyether ether ketone (PEEK), their bulk and surface properties based on structural properties, and surface modification using various friction stir based techniques. These methods have the potential to substantially increase the lifespan of implants and their presence in human bodies.

Topics & Concepts

Materials scienceTribologyFriction stir processingPeekPolyether ether ketoneSurface modificationBiocompatible materialTitaniumAdhesive wearNanotechnologyPolymerImplantComposite materialBiomedical engineeringMetallurgyMicrostructureMechanical engineeringSurgeryMedicineEngineeringAluminum Alloys Composites PropertiesAdvanced materials and compositesOrthopaedic implants and arthroplasty
A review on biomedical implant materials and the effect of friction stir based techniques on their mechanical and tribological properties | Litcius