The internal friction Q1 and the Young’s modulus E of NiTi based alloys have been measured as a function of temperature after various thermomechanical and hydrogen-doping treatments given to the materials. Hydrogen is found to play a major role introducing tall damping peaks associated with Snoek-type and H-twin boundary relaxations. Levels of Q1 as high as 0.08 have been detected, which are among the highest to date measured in metal alloy systems. For appropriate alloy compositions, these peaks occur at around room temperature (for acoustical frequencies), thus providing a good opportunity to reduce machinery vibrations and noise pollution. In the paper, the conditions are highlighted under which maximum efficiency can be reached in the conversion of mechanical energy into heat.

Issue Section:
Special Section on Damping of Shape Memory Alloys, Composites, and Foams
Keywords:
hydrogen, doping, damping, titanium alloys, nickel alloys, internal friction, Young's modulus, thermomechanical treatment, Snoek effect, twin boundaries, noise pollution
Topics:
Alloys, Damping, Hydrogen, Nickel titanium alloys, Temperature, Young's modulus, Internal friction, Noise (Sound), Pollution
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