Modeling of Terfenol-D Biased Minor Hysteresis Loops

When modeling the biased minor loops of the giant magnetostrictive material (GMM) with the classic Jiles-Atherton method, it is hard to describe the characters. When analyzing the shape changing rule of the hysteresis minor loops of Terfenol-D, whose magnetizations are not saturated, the shapes of loops are mainly affected by pinning factor k and by curve shape parameter a . The parameter k increases with the amplitude of the minor loop driving magnetic field and decreases with the bias magnetic field, while parameter a decreases with the bias magnetic field of the minor loop. A sigmoid curve function was adopted as the revision function of k and a . The revised minor loop model not only can well demonstrate the hysteresis character of biased minor loops and symmetric minor loops of Terfenol-D, but also does not need any foregoing information of minor loop magnetizations. The maximum error between the simulation results and experiments is reduced from 11.77% to 3.5%.