A. Bhattacharyya et Dc. Lagoudas, THERMOELECTRIC SHAPE-MEMORY ALLOY ACTUATORS AND THE ISSUE OF THERMOMECHANICAL COUPLING, Journal de physique. IV, 7(C5), 1997, pp. 673-678
In this work, we model a thermoelectric shape memory alloy(SMA) actuat
or as part of a research effort to design high-force, high-frequency S
MA actuators. Cyclic phase transformation in a SMA layer is achieved b
y alternately heating/cooling using the thermoelectric Peltier effect.
The thermal and mechanical fields during phase transformation are, in
general, highly coupled and the extent of this coupling in the light
of different mechanical boundary conditions is examined. The primary p
arameters of design interest are the frequency response and the evolut
ion of the actuation stress. The analysis resulting from the formulate
d boundary value problem indicates that thin SMA layers(approximate to
6 mu thick), under partial transformation, are capable of delivering
frequencies of about 30 Hz at peak stresses of about 145 Mpa.