An electrochemical study aiming at the evaluation of corrosion parameters using potentiodynamic and potentiostatic techniques ("scratch" and modified ASTM F746) was conducted in 0.9% NACl on wires from equiatomic Ni- Ti and ternary Ni44Ti51Cu5 superelastic alloys with Ti90Mol0 as a reference material. The results obtained using potentiostatic tests, that simulate better the behavior of material in service conditions than potentiodynamic ones, indicate that both Ni-Ti and Ni-Ti-Cu wires exhibit low corrosion potentials ( 50-150 mV versus SCE) inferior to that of Ti- Mo alloy. The latter proved to be immune to localized corrosion attacks up to 800mV. Key words: Ni-Ti-Cu alloy; Localized corrosion tests; Passive film; Martensitic transformation
Effect of copper on the localized corrosion resistance of Ni-Ti shape memory alloy
Rondelli G;
2002
Abstract
An electrochemical study aiming at the evaluation of corrosion parameters using potentiodynamic and potentiostatic techniques ("scratch" and modified ASTM F746) was conducted in 0.9% NACl on wires from equiatomic Ni- Ti and ternary Ni44Ti51Cu5 superelastic alloys with Ti90Mol0 as a reference material. The results obtained using potentiostatic tests, that simulate better the behavior of material in service conditions than potentiodynamic ones, indicate that both Ni-Ti and Ni-Ti-Cu wires exhibit low corrosion potentials ( 50-150 mV versus SCE) inferior to that of Ti- Mo alloy. The latter proved to be immune to localized corrosion attacks up to 800mV. Key words: Ni-Ti-Cu alloy; Localized corrosion tests; Passive film; Martensitic transformationI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
