Title :
Development of Inverse Magnetostrictive Actuator
Author :
Park, H.J. ; Park, Y.W. ; Choi, H.W.
Author_Institution :
BK21 Mechatron. Group, Chungnam Nat. Univ., Daejeon
Abstract :
Electromagnetic actuators have some problems such as heat generation and bulky size. To overcome such problems, this paper proposes an electromagnetic actuator using inverse magnetostrictive effect. The development of inverse magnetostrictive actuator (IMA) starts with the concept of magnetostrictive material (MM) as a flux source, not as a variable resistance. Piezoelectric (Piezo) and MM models are derived first to know the relationship between the input and output. This relationship is incorporated into the spring model to obtain the stress applied to MM, when a voltage is applied to Piezo. The performance of IMA is evaluated in terms of the displacement and force. The percentage error between the model and experimental data falls on 1% for the displacement, and on 10% for the force.
Keywords :
electromagnetic actuators; magnetostrictive devices; piezoelectric materials; MM models; electromagnetic actuators; flux source; heat generation; inverse magnetostrictive actuator; inverse magnetostrictive effect; magnetostrictive material; piezoelectric material; piezoelectric models; spring model; variable resistance; Electromagnetic actuator; inverse magnetostrictive actuator (IMA); magnetostrictive material; piezoelectric material;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2008.2002478
