Article ID Journal Published Year Pages File Type
1609407 Journal of Alloys and Compounds 2015 6 Pages PDF
Abstract

•Three-phase particulate magnetoelectric composite were prepared by hot pressing method.•A magnetic-field-induced along diameter direction was applied in the process of hot pressing.•The influence of magnetic-field-induced Hi on the magnetoelectric effect was studied.•Magnetostrictive coefficient and coupling factor were influenced significantly by Hi.•The maximum of magnetoelectric coefficients 82.58 mV/(cm Oe) have been obtained.

The magnetoelectric effect in a three-phase particulate magnetoelectric composite is experimentally studied with specific interest in the dependence on the inducing magnetic field up to 300 Oe. A particulate magnetoelectric composite consisting 30 vol% of PVDF, 63 vol% of PZT and 7 vol% of Terfenol-D is fabricated in lab followed by the inducing magnetic field along the diameter direction in the process of hot pressing. It is observed that the change of inducing magnetic field influences the value of the magnetoelectric coefficient. This is partly attributed to the oriented domain walls promote the increase of the magnetostrictive coefficient of Terfenol-D, and partly attributed to the contraction deformation of Terfenol-D which causes the decrease of the coupling coefficient between PZT, TD and PVDF, which together influence the change of the magnetoelectric coefficient. In addition to the inducing magnetic field, the influence of the bias magnetic field in the process of testing to the magnetoelectric coefficient is examined at different fixed resonance frequency. A maximum of magnetoelectric coefficient 82.58 mV/(cm Oe) is obtained when the inducing magnetic field Hi = 200 Oe and the bias magnetic field Hdc = 1000 Oe. When Hi < 200 Oe, the increase of the magnetostrictive coefficient of Terfenol-D plays a leading role which leads to increasing magnetoelectric response. In the Hi range of 200 Oe < Hi < 300 Oe, the decrease of the coupling coefficient between PZT, TD and PVDF plays a leading role and the magnetoelectric coefficient drops along the increase of the inducing magnetic field.

Related Topics
Physical Sciences and Engineering Materials Science Metals and Alloys
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