Title of article
The effect of heating rate on the surface chemistry of NiTi
Author/Authors
Undisz، نويسنده , , Andreas and Hanke، نويسنده , , Robert and Freiberg، نويسنده , , Katharina E. and Hoffmann، نويسنده , , Volker and Rettenmayr، نويسنده , , Markus، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2014
Pages
5
From page
4919
To page
4923
Abstract
The impact of the heating rate on the Ni content at the surface of the oxide layer of biomedical NiTi is explored. Heat treatment emulating common shape-setting procedures was performed by means of conventional and inductive heating for similar annealing time and temperature, applying various heating rates from ∼0.25 K s−1 to 250 K s−1. A glow discharge optical emission spectroscopy method was established and employed to evaluate concentration profiles of Ni, Ti and O in the near-surface region at high resolution. The Ni content at the surface of the differently treated samples varies significantly, with maximum surface Ni concentrations of ∼20 at.% at the lowest and ∼1.5 at.% at the highest heating rate, i.e. the total amount of Ni contained in the surface region of the oxide layer decreases by >15 times. Consequently, the heating rate is a determinant for the biomedical characteristics of NiTi, especially since Ni available at the surface of the oxide layer may affect the hemocompatibility and be released promptly after surgical application of a respective implant. Furthermore, apparently contradictory results presented in the literature reporting surface Ni concentrations of ∼3 at.% to >20 at.% after heat treatment are consistently explained considering the ascertained effect of the heating rate.
Keywords
Nickel–titanium alloy , surface characterization , Heating rate effect , Glow discharge optical emission spectroscopy , depth profiling
Journal title
Acta Biomaterialia
Serial Year
2014
Journal title
Acta Biomaterialia
Record number
1758563
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