Materials & Design (Jun 2022)

A new toxic-free Ti40Zr10Co36Pd14 metallic glass with good biocompatibility and surface behaviour comparable to Ti-6Al-4V

  • Abdul Azeez Abdu Aliyu,
  • Suparat Udomlertpreecha,
  • Min Medhisuwakul,
  • Chinnapat Panwisawas,
  • Roger Reed,
  • Chedtha Puncreobutr,
  • Jirapon Khamwannah,
  • Surasak Kuimalee,
  • Chetarpa Yipyintum,
  • Boonrat Lohwongwatana

Journal volume & issue
Vol. 218
p. 110691

Abstract

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In this study, a new toxic-free Ti40Zr10Co36Pd14 amorphous alloy with a critical casting size of 5 mm diameter and 20 mm long has been synthesised through copper-mold casting process. The Ti40Zr10Co36Pd14 bulk metallic glass (BMG) rod has further formed into thin films through the filtered cathodic vacuum arc (FCVA) deposition process. To assess the biocompatibility and the surface behaviour of the synthesised Ti40Zr10Co36Pd14 BMG, the metallic glass (MG) thin films are fabricated on the glass substrate and cultured using murine osteoblast cells (MC3T3-E1) and human osteoblast-like cells (SaOS-2). Various characterisation techniques has been utilised to evaluate the surface properties and the cultured cells behaviour of the deposited thin films. The synthesised Ti40Zr10Co36Pd14 composition shows good biocompatibility similar to the routinely used Ti-6Al-4V. The osteoblast cells proliferate very well on the Ti40Zr10Co36Pd14 MGs and exhibit similar levels of alkaline phosphatase enzymatic activity to those of the controls and the Ti-6Al-4V material. The MC3T3-E1 cells adhered and spread faster on the alumina particle blasted Ti40Zr10Co36Pd14 and Ti-6Al-4V surfaces with osteoblast-like shapes. These results suggest that Ti40Zr10Co36Pd14 BMG is biocompatible and could support osteoblast differentiation. Thus, the new alloy can be used as a candidate material for potential biomedical application.

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