Thermomechanical Characterization of SMA Actuators Under Cyclic Loading

Shape memory alloy (SMA) wire actuators have been increasingly used in various devices and applications due to their high energy density and simple design. With the use of these actuators the questions of size effects on their behavior need to be addressed. This paper presents a study on the cyclic loading behavior of large diameter SMA wires subjected to different thermo-mechanical loading paths. Wires of two different diameters are investigated in the current study—1.78 mm and 2.16 mm. The issues addressed in this work include the investigation and design of a gripping technique for the large diameter wires to avoid slippage and study of heat treatment conditions for optimized superelastic behavior. After the heat treatment, specimens are subjected to cyclic mechanical loading. Two different cyclic loading patterns have been investigated: loading up to a given value of stress or up to a given value of strain.Copyright © 2003 by ASME

[1]  D. Wurzel Marforming and tempering of binary Ni–Ti alloys including precipitation effects , 1999 .

[2]  H. Tobushi,et al.  Phenomenological analysis on subloops and cyclic behavior in shape memory alloys under mechanical and/or thermal loads , 1995 .

[3]  Yong Liu,et al.  Effect of annealing on the transformation behavior and superelasticity of NiTi shape memory alloy , 2001 .

[4]  Shuichi Miyazaki,et al.  Cyclic stress-strain characteristics of TiNi and TiNiCu shape memory alloys , 1995 .

[5]  Yinong Liu,et al.  Thermodynamic analysis of the martensitic transformation in NiTi—I. Effect of heat treatment on transformation behaviour , 1994 .

[6]  Dimitris C. Lagoudas,et al.  Thermomechanical modeling of polycrystalline SMAs under cyclic loading, Part II : material characterization and experimental results for a stable transformation cycle , 1999 .

[7]  Dominiek Reynaerts,et al.  Design aspects of shape memory actuators , 1998 .

[8]  David L. McDowell,et al.  Degradation of an Ni-Ti alloy during cyclic loading , 1994, Smart Structures.

[9]  Scott R. White,et al.  Effect of training conditions and extended thermal cycling on nitinol two-way shape memory behavior , 1995 .

[10]  Dimitris C. Lagoudas,et al.  Development of a shape memory alloy actuated biomimetic vehicle , 2000 .

[11]  Dimitris C. Lagoudas,et al.  Thermomechanical characterization of NiTiCu and NiTi SMA actuators: influence of plastic strains , 2000 .

[12]  Shuichi Miyazaki,et al.  Effect of cyclic deformation on the pseudoelasticity characteristics of Ti-Ni alloys , 1986 .

[13]  Shuichi Miyazaki,et al.  Effect of mechanical cycling on the pseudoelasticity characteristics of TiNi and TiNiCu alloys , 1995 .