Abstract
Considering the wide applications of magnetoelectric (ME) composites in sensors, actuators, and microelectronic devices, optimizing them for the maximum ME coupling response has recently sought great attention among researchers. The coupling response of ME composites is maximum when operated in resonance conditions. In this article, a two-dimensional coupled in-plane formulation is proposed based on the in-plane vibrational theory to capture the resonant ME response of Press-fit ME composites. The study is extended to analyze the effect of stress and temperature on the resonant ME response of press-fit ME composites. The proposed theoretical formulation is validated experimentally and found to agree with each other. The numerical analysis is performed using the commercially available finite element software COMSOL® utilizing the Frequency Domain Perturbation study steps. The study reveals a nonlinear decrement in the peak resonant ME response with respect to both externally applied pre-stress and temperature conditions.
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