摘要
超磁致伸缩作动器(GMA)输入输出之间存在着磁滞非线性关系,当研究其中高频输出特性时,为了降低材料自身迟滞非线性特性的影响,往往选用零点与饱和状态之间线性度较好的不饱和小回线,因此很有必要开展动态不饱和小回线数学模型的研究。首先在综合研究磁致伸缩材料(GMM)和GMA结构动力学特性的基础上结合安培环路定理提出以励磁电流为输入、应变为输出的动态Jiles-Atherton(J-A)模型,然后在引入磁滞回线特性变量的基础上得出J-A模型关键模型参数对其特性的影响规律,根据不饱和小回线仿真与实验波形的偏离特性提出模型参数的修正方法得到不饱和小回线动态J-A模型。最后,在不同频率和不同饱和幅值下通过实验验证该数学模型的正确性。
Hysteresis nonlinear relationship between input and output exists in giant magnetostrictive ac- tuator (GMA). In order to lower hysteresis nonlinearity of material, minor hysteresis loops are often applied when the high frequency characteristics are studied. Therefore, it is very important to research the mathematic model of minor hysteresis loops. First, the dynamic hysteresis model is established combining Ampere circuital theorem with giant magnetostrictive material (GMM) and structural dynamic characteristic of GMA, which re- gards exciting current as input variable and strain as output variable. Then, the laws between model parame- ters and hysteresis loop characteristic are achieved by simulation and minor hysteresis loop dynamic Jiles-Ath- erton (J-A) model is proposed through modifying the model parameters according to the error characteristic between simulation and experiment waveform. Finally, the mathematic model is proved at different frequencies and exciting currents by experiment.
出处
《北京航空航天大学学报》
EI
CAS
CSCD
北大核心
2016年第12期2648-2653,共6页
Journal of Beijing University of Aeronautics and Astronautics
基金
国家自然科学基金(11272026)~~
