Materials Research Express (Jan 2024)

Electrodeposition of Zn/TiO2 coatings on Ti6Al4V produced by selective laser melting, the characterization and corrosion resistance

  • Demet Özaydın Gündüz,
  • Gökhan Küçüktürk,
  • Muharrem Pul,
  • Sachin Salunkhe,
  • Duran Kaya,
  • Mehmet Kabalcı,
  • Robert Čep,
  • Emad Abouel Nasr

DOI
https://doi.org/10.1088/2053-1591/ad59ed
Journal volume & issue
Vol. 11, no. 6
p. 066522

Abstract

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Recently, additive manufacturing techniques have begun to be implemented extensively in the production of implants. Ti6Al4V alloy is a material of choice for implants due to its low density and high biocompatibility. Recent research, however, has demonstrated that Ti6Al4V alloy emits long-term ions (such as Al and V) that are hazardous to health. Surface modifications, including coating, are therefore required for implants. The electrodeposition method was utilized to deposit Zn-doped TiO _2 onto the surfaces of Ti6Al4V samples, which were manufactured via the selective laser melting method. The effects of processing time, amount of TiO _2 addition, microstructure of anode materials, and resistance to wear and corrosion were investigated. The coating hardness and thickness increased with increasing processing time and TiO _2 concentration. It has been observed that the addition of TiO _2 to zinc anode coatings results in an increase in wear and a decrease in corrosion rate. It was noted that the specimens exhibiting the most significant wear also possessed the highest hardness value. The specimens were generated utilizing a graphite anode, underwent a 30-min processing time, and comprised 10 g l ^−1 of TiO _2 .

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