Delayed fracture of Ni-Ti superelastic alloys in acidic and neutral fluoride solutions

## Abstract Hydrogen embrittlement of Ni‐Ti superelastic alloy in a fluoride solution (0.2% APF) has been investigated by means of a tensile test (after immersion) and hydrogen thermal desorption analysis. Upon immersion, the tensile strength of the alloy decreased to the critical stress level of m

Inhibition of the hydrogen embrittlement of Ni-Ti superelastic alloy in an acidulated phosphate fluoride (APF) solution has been attempted by adding various amounts of H 2 O 2 . In a 0.2% APF solution, hydrogen absorption is markedly inhibited by adding H 2 O 2 , although corrosion is slightly enhan

## Abstract The fracture of Ni‐Ti superelastic alloy has been investigated by a sustained tensile‐loading test in physiological saline solution containing hydrogen peroxide (0.15__M__ NaCl + 0.3__M__ H~2~O~2~). The fracture always occurs when the applied stress exceeds the critical stress for marte

## Abstract The fracture of commercial pure titanium in acid and neutral fluoride solutions has been examined by a sustained tensile‐loading test and hydrogen thermal desorption analysis. It was found that the fracture of titanium occurred in neutral 2.0% NaF solution as well as in 2.0% acidulated

## Abstract Hydrogen absorption of biomedical titanium and Ni‐Ti alloys in a neutral fluoride (2.0% NaF) solution for up to 10,000 h at 37°C has been evaluated by means of hydrogen thermal desorption analysis. For α titanium (commercial pure titanium), the amount of absorbed hydrogen was, at most,

## Abstract The effect of applied strain on martensitic transformation in a superelastic Ti~46.4~Ni~47.6~Nb~6.0~ alloy at room temperature was investigated by tensile tests, differential scanning calorimetry measurements, and X‐ray diffraction. Reverse transformation starting (__A__~s~) and finishi