Abstract

Nickel- and titanium-based alloys are promising materials for dental orthodontic wires due to their superior mechanical properties and corrosion resistance. The studies of the corrosion resistance of these materials according to their surface characterization in artificial salivas are limited. We study the changes of the surfaces of NiTi-alloy-based orthodontic wires in artificial salivas with (or without) additions of F− and $ {\text{PO}}_4^{{3 - }} $ after a period of time by the SEM and EDS methods.

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