Magnetoelectric effect of mildly conducting magnetostrictive/piezoelectric particulate composites

Abstract: A relatively simple model has been developed to study the magnetoelectric effect of magnetostrictive/piezoelectric dilute particulate composites. For illustrative purpose, we calculate the magnetoelectric voltage coefficients of particulate composites of NiFe 2 O 4 and lead zirconate titanate. By treating the inclusion/matrix as mildly conducting materials, we have reproduced all the key experimental features of magnetoelectric behavior of the particulate composites. In addition, the qualitative dependence of … Show more

“…As can be seen in figure 4c and as expected for well dispersed composites [30][31] no difference is noted in the ME response when composite thickness and AC applied field are changed. In this way, it can be concluded that the residual stress status of the composites, that strongly depends on film thickness and deeply affects the ME coupling, together with preferential nanoparticle orientation and interface defects [32], does not play a significant role in the processed composites.…”

“…For higher concentrations, nanoparticles lead to the disruption of the ferroelectric copolymer phase [19], having as a result an abrupt decrease in the ME response of the nanocomposite. The theoretical fitting of this behavior was performed by using the model presented in [30][31]. In this model, the ME response α 33 can be expressed As expected and predicted by the theory, the good value of piezoelectric coefficient reached at 7wt% is not enough to obtain a good magnetoelectric coefficient in samples with low magnetostrictive nanoparticle concentrations since it is necessary a substantial presence of both ferroelectric and magnetostrictive phases [8,33].…”

Optimizing piezoelectric and magnetoelectric responses on CoFe₂O₄/P(VDF-TrFE) nanocomposites

“…As can be seen in figure 4c and as expected for well dispersed composites [30][31] no difference is noted in the ME response when composite thickness and AC applied field are changed. In this way, it can be concluded that the residual stress status of the composites, that strongly depends on film thickness and deeply affects the ME coupling, together with preferential nanoparticle orientation and interface defects [32], does not play a significant role in the processed composites.…”

“…For higher concentrations, nanoparticles lead to the disruption of the ferroelectric copolymer phase [19], having as a result an abrupt decrease in the ME response of the nanocomposite. The theoretical fitting of this behavior was performed by using the model presented in [30][31]. In this model, the ME response α 33 can be expressed As expected and predicted by the theory, the good value of piezoelectric coefficient reached at 7wt% is not enough to obtain a good magnetoelectric coefficient in samples with low magnetostrictive nanoparticle concentrations since it is necessary a substantial presence of both ferroelectric and magnetostrictive phases [8,33].…”

Optimizing piezoelectric and magnetoelectric responses on CoFe₂O₄/P(VDF-TrFE) nanocomposites

“…Previously, we have proposed simple models for the effective piezoelectric properties of 0-3 composites and the longitudinal ME response for dilute particulate magnetostrictive-piezoelectric composites with spherical inclusions. 13,14 Fairly good agreement with experimental results has been obtained. To impart piezoelectric activity in a 0-3 ferroelectric composite, the material must first be subjected to a poling process for a sufficiently long duration to align the spontaneous polarization as well as to allow free charges to accumulate at the inclusion-matrix interfaces to counteract the depolarization field to stabilize the polariza-tion.…”

“…Another possible cause is the effect of electrical conductivities in the constituents, which allow charge accumulation at the inclusionmatrix interfaces, thus affecting the electric field in the piezoelectric matrix. 14 The previous article has suggested that the effective conductivity may increase rapidly with . Hence a tendency of decreasing ␣ with higher is observed.…”

Effect of inclusion deformation on the magnetoelectric effect of particulate magnetostrictive/piezoelectric composites

“…Let λ x1 , λ y1 and λ z1 represent the induced strains in the magnetostrictive inclusions due to H 1 . According to the theory of elasticity, the stress T and strain e in the constituents in the x, y and z directions obey the following conditions [13,14]:…”

Modeling of the Magnetoelectric Effect of Three-Phase Multiferroic Particulate Composites