Corrosion fatigue processes in cyclically loaded phase transforming NiTi wires are studied and characterized by standard electrochemical methods applied in-situ during cyclic deformation [1,2].
3D reconstruction of microcrack in NiTi filament cyclically deformed in biofluid and electrchemical mechanism of the crack nucleation and propagation
[1] J. Racek, P. Šittner, L. Heller, J. Pilch, P. Sedlák, L. Kadeřávek: Electrochemistry of NiTi wires/springs subjected to static/cyclic loadings
Materials Today: Proceedings 2S (2015) S965-S969.
[2] J. Racek, M. Stora, P. Šittner, L. Heller, J. Kopeček, M. Petrenec: Monitoring Tensile Fatigue of Superelastic NiTi Wire in Liquids by Electrochemical Potential Shape Memory and Superelasticity 1 (2015) 204-230.
