Surface Characterization of NiTi Superelastic and Shape Memory Alloys After Electrolytic Polishing

Surface Characterization of NiTi Superelastic and Shape Memory Alloys After Electrolytic Polishing

For the biomedical application of NiTi alloys, an excellent surface finishing process is required to guarantee high corrosion resistance and biocompatibility, eliminating the allergenic and toxic effects associated with the release of nickel ions in the body. Electropolishing is a process that can reduce surface imperfections and form a thin protective layer of TiO2, even in complex-shaped devices. The main objective of our study was to find and report suitable parameters for electrolytic polishing of NiTi wires, in both the superelastic and shape memory states. The results indicate that electropolishing in a 3.5 mol•L-1 methanolic H2SO4 electrolyte at 20ºC can effectively reduce surface roughness, remove superficial nickel-rich layers and improve corrosion resistance for austenitic and martensitic NiTi alloys.

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Bibliographic Details
Main Authors: Lopes,Natalia Isabel de Azevedo, Silva,Laís Ávila de Oliveira, Santos,Leandro de Arruda, Buono,Vicente Tadeu Lopes
Format: Digital revista
Language:English
Published: ABM, ABC, ABPol 2017
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392017000800572
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Summary:For the biomedical application of NiTi alloys, an excellent surface finishing process is required to guarantee high corrosion resistance and biocompatibility, eliminating the allergenic and toxic effects associated with the release of nickel ions in the body. Electropolishing is a process that can reduce surface imperfections and form a thin protective layer of TiO2, even in complex-shaped devices. The main objective of our study was to find and report suitable parameters for electrolytic polishing of NiTi wires, in both the superelastic and shape memory states. The results indicate that electropolishing in a 3.5 mol•L-1 methanolic H2SO4 electrolyte at 20ºC can effectively reduce surface roughness, remove superficial nickel-rich layers and improve corrosion resistance for austenitic and martensitic NiTi alloys.

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