The effect of surface laser texturing on the corrosion performance of the biocompatible β-Ti12Mo6Zr2Fe alloy

Laser materials processing is a very attractive technology, due not only to the vast number of applications in a wide range of materials and industrial segments but also due to the constant progress in the development of laser devices in terms of power, control, and costs. In metals processing techn...

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Veröffentlicht in:	Surface & coatings technology 2021-01, Vol.405, p.126628, Article 126628
Hauptverfasser:	Nagle Travessa, Dilermando, Vilas Boas Guedes, Geovana, Capella de Oliveira, Aline, Regina Cardoso, Kátia, Roche, Virginie, Moreira Jorge Jr, Alberto
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Sprache:	eng
Schlagworte:	Atmospheric models Biocompatibility Biomedical materials Body fluids Charge transfer Corrosion Corrosion effects Electrochemical impedance spectroscopy Equivalent circuits Grain refinement In vitro methods and tests Inert atmospheres Laser beam texturing Laser materials Lasers Materials processing Metallurgy Properties (attributes) Solidification Surface laser re-melting Surface properties Texturing β-Ti12Mo6Zr2Fe alloy
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container_title	Surface & coatings technology
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creator	Nagle Travessa, Dilermando Vilas Boas Guedes, Geovana Capella de Oliveira, Aline Regina Cardoso, Kátia Roche, Virginie Moreira Jorge Jr, Alberto
description	Laser materials processing is a very attractive technology, due not only to the vast number of applications in a wide range of materials and industrial segments but also due to the constant progress in the development of laser devices in terms of power, control, and costs. In metals processing technology, a high and precisely controlled density of energy concentrated in a small region imposes specific characteristics for the surface, keeping bulk properties unchanged. Alternatively, laser surface modification can result in outstanding surface properties to ordinary/low-cost metals. In the present work, the corrosion behavior of the Ti12Mo6Zr2Fe β-metastable alloy has been evaluated after laser surface melting and re-solidification under an inert atmosphere. It was found that this processing route produced significant metallurgical and chemistry changes on the surface of the alloy, including grain refinement and oxide formation. It resulted in a significant improvement in the corrosion properties in comparison to the passivated metal, as observed in potentiodynamic polarization curves and by electrochemical impedance spectroscopy (EIS) in simulated body fluid (SBF). Electrical equivalent circuit (EEC) modeling of impedance data suggests that a duplex porous/dense passive layer present in the untreated alloy enables the occurrence of charge-transfer mechanisms at some extension while a thicker oxide layer present after laser texturing increases the capacitive behavior of the surface. •Ti12Mo6Zr2Fe β-alloy (TMZF) is a strong candidate for human implants•Laser processing is efficient in designing surface characteristics of metals•Grain refining and surface oxide layer were obtained after laser texturing•Changes caused by laser texturing improves corrosion performance of β-Ti alloys•TiO formation increases the capacitive behavior of laser textured TMZF alloy
doi_str_mv	10.1016/j.surfcoat.2020.126628
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subjects	Atmospheric models Biocompatibility Biomedical materials Body fluids Charge transfer Corrosion Corrosion effects Electrochemical impedance spectroscopy Equivalent circuits Grain refinement In vitro methods and tests Inert atmospheres Laser beam texturing Laser materials Lasers Materials processing Metallurgy Properties (attributes) Solidification Surface laser re-melting Surface properties Texturing β-Ti12Mo6Zr2Fe alloy
title	The effect of surface laser texturing on the corrosion performance of the biocompatible β-Ti12Mo6Zr2Fe alloy
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