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51318-11632-Stress Corrosion Cracking failure of Nickel Titanium alloy under thermomechanical treatment and forward martensitic transformation

The corrosion behavior and reliability of technique have been examined for NiTi sample in artificial physiological solution. The results show the sensitivity of EFM technique to temperature and base frequencies.

Product Number: 51318-11632-SG
Author: Mahdi Mohajeri / Homero Castaneda-Lopez / Behrouz Haghgouyan / Dimitris C. Lagoudas
Publication Date: 2018
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The electrochemical frequency modulation (EFM) technique can consider as a new tool for electrochemical corrosion monitoring. The calculation of corrosion rate with a non-destructive and rapid technique is a necessity to study corrosion behavior of metals under loading and thermal cycling. NiTi shape memory alloy (SMA) is characterized by differential scanning calorimetry (DSC) and uniaxial tensile testing. The corrosion behavior and reliability of technique have been examined for NiTi sample in artificial physiological solution. The results show the sensitivity of EFM technique to temperature and base frequencies.

Key words: Nickel-Titanium alloy, Electrochemical Frequency Modulation (EFM), Martensitic transformation.

The electrochemical frequency modulation (EFM) technique can consider as a new tool for electrochemical corrosion monitoring. The calculation of corrosion rate with a non-destructive and rapid technique is a necessity to study corrosion behavior of metals under loading and thermal cycling. NiTi shape memory alloy (SMA) is characterized by differential scanning calorimetry (DSC) and uniaxial tensile testing. The corrosion behavior and reliability of technique have been examined for NiTi sample in artificial physiological solution. The results show the sensitivity of EFM technique to temperature and base frequencies.

Key words: Nickel-Titanium alloy, Electrochemical Frequency Modulation (EFM), Martensitic transformation.

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