Title :
Magnetomechanical properties of terfenol-D 2-2 composites with internal field biasing
Author :
Gancedo, Luis G. ; Busbridge, S.C. ; Eaton, Stuart J.
Author_Institution :
Sch. of Eng., Univ. of Brighton, UK
Abstract :
Two self-biased Terfenol-D 2-2 composites have been produced with laminations perpendicular to (112) and an internal magnetic field along [112]. The characteristic frequency of a sample of dimensions 2.5 ×7.0×10.0 mm has been increased to 53 kHz compared to 0.2 kHz for the bulk material by increasing the resistivity to 1×10-5 Ωm. The static strain along [1~1~1] was found to be 752 and 647 ppm for the two samples when [1~1~1] was parallel to the externally applied field Happl. When [1~1~1] was perpendicular to Happl the internal field Hint must be added to Happl thereby giving an asymmetrical strain versus Happl curve. Eddy currents have been reduced by the introduction of a thin insulating layer, the mechanical properties of which critically control the magnetoelastic performance of the composite.
Keywords :
composite materials; dysprosium compounds; eddy currents; magnetic multilayers; magnetisation; magnetoelastic effects; magnetostriction; terbium compounds; 0.2 kHz; 53 kHz; Tb0.27Dy0.73Fe1.9; Terfenol-D 2-2 composites; composite materials; eddy currents; internal field biasing; internal magnetic field; magnetic multilayers; magnetization; magnetoelastic performance; magnetomechanical properties; magnetostriction; Eddy currents; Frequency; Insulation; Lamination; Magnetic field induced strain; Magnetic materials; Magnetic properties; Magnetostriction; Saturation magnetization; Strain measurement; Composites; Terfenol-D; eddy currents; multilayers;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2005.854770
