Abstract
Deficiencies in practical applications for magnetic shape memory actuators motivated theauthors to start experimental and theoretical research in the field of multifunctionalmaterials. The authors present the concept of using magnetic shape memory actuatorsfor controlling, altering and tuning the forced vibration of a rotor. The maingoal of their experimental research is to show how the activation of magneticshape memory actuators can influence the forced vibration responses of a rotorin terms of altering and tuning selected rotor natural frequencies and modes ofvibrations. Experimental results show that magnetic shape memory actuators can besuccessfully applied for vibration reduction and vibration control in the case of rotorsystems.
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