Stress corrosion cracking of NiTi in artificial saliva

Abstract

Objectives This paper aimed to study the mechanism of the cracking of orthodontic NiTi wire. Methods Two orthodontic NiTi wires were subjected: (1) optical and scanning electron microscopy (SEM) to observe the fracture surface; (2) energy dispersive X-ray spectroscopy to determine the composition of the surface product; (3) anodic polarization to remove the surface product. Samples of NiTi alloy were subjected to the constant loading test to study the stress corrosion cracking (SCC) behavior of NiTi shape memory alloy in artificial saliva. Results The results showed that there were three typical areas at the fracture surface of NiTi orthodontic wire. Area ‘1’ was a tool-made notch. Crack initiated from the root of this notch and propagated to form Area ‘2’, which was perpendicular to the wire axis and covered by surface film. This film consisted of Na, K, Cl, P, S and O except Ni and Ti. The cracking process of NiTi alloy under the constant loading test depended on the pH of saliva and applied stress. The crack length was about 262 μm, the longest at 300 MPa and pH 3.0. Significance A tool-made notch in orthodontic NiTi wires can cause SCC. At high stress and low pH, this NiTi alloy was most sensitive to cracking.