Pseudoelastic fatigue of NiTi wires: frequency and size effects on damping capacity

Abstract

The damping properties associated with hysteretic behavior of the pseudoelastic stress–strain (σ–ε) curves of NiTi shape memory alloy (SMA) wires were studied. Dampingwas characterized for wires of 2.46 and 0.5 mm diameter using samples of120 mm in length. The effect of the frequency and size of the wire on theσ–ε curves werestudied in the 3 × 10 − 5–3 Hz range, with 8% maximal strain. Damping associated parameters, such as hysteresiswidth, dissipated energy and specific damping capacity (SDC), defined as the ratio betweenthe hysteretic energy and the maximum strain work over a complete pseudoelastic cycle,show maximum values at a specific frequency for each size diameter. These findings wereexplained in terms of the temperature effects associated to the heat of transformation.Results show that NiTi wire of 0.5 mm diameter has the highest SDC when cycling around0.1 Hz while wire of 2.46 mm diameter has the highest SDC at 0.01 Hz. At 1 Hz, theSDC for 0.5 mm diameter wire is around twice that of 2.46 mm diameter wire.