ABSTRACT
Abstract. Adaptable hybrid composites are materials in which actuators are embedded into polymer matrix composites. Shape memory alloys (SMA) are among the potential candidates for actuators embedded in such composite smart structures. After plotting Clausius-Clapeyron diagrams for three stuctural states, thin wires (<|) = 120 jam) of Nickel-Titanium-Copper (nitinol) were incorporated parallel with the reinforcing fibres into a glass-epoxy unidirectional laminate during lay-up. Then the whole structure was subjected to different curing procedures. The interfacial shear strength between the matrix and the nitinol wires in various structural states was determined by micromechanical tests involving the interface directly - the pull-out and microdebond tests. Clamped-free (cantilever) beam method was used to evaluate the effect of actuation by heating the nitinol wires embedded into the composite. The comparison between the different composites points out first the leading role of the interfacial shear strength. On the other hand, it can be noted the influence of the training conditions before embedding and the occurrence of a self-trained two way shape memory effect.
