Structural, magnetic and electrical characteristics of multiferroics (1-x)BaTiO3-xMgFe2O4 composites with weight fractions of x = 0.3, 0.5 and 0.7 are reported. MgFe2O4 powders were prepared using sol-gel auto combustion technique. It was combined with commercial BaTiO3 to form composites by using wet milling solid state reaction technique. Formation of tetragonal perovskite for the ferroelectric BaTiO3 and cubic spinel for the ferrimagnetic MgFe2O4 phases, were identified from the XRD pattern. The average grain size for each composite was about 0.5 μm. The M-H loop showed soft ferrimagnetic properties due to the presence of MgFe2O4 in the composites. The increment of the MgFe2O4 weight fraction increased the saturation magnetization and slightly changed the coercive field. The complex impedance plot can be represented by a parallel R and C circuit. Composite sample with x = 0.5 has the highest resistance with lowest capacitance and dielectric constant value at room temperature. The dielectric constant showed a very strong dispersion at low frequencies, due to the Maxwell-Wagner mechanism and a slight dispersion at higher frequencies. Based on the results obtained, all of the composite samples exhibited high dielectric constant and tangent loss at the low frequency range.
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机译:报道了重量分数为x = 0.3、0.5和0.7的多铁(1-x)BaTiO3-xMgFe2O4复合材料的结构,磁性和电学特性。 MgFe2O4粉末采用溶胶-凝胶自燃技术制备。通过湿磨固相反应技术将其与商业BaTiO3结合形成复合材料。从X射线衍射图谱可知,铁电BaTiO3形成四方钙钛矿,亚铁磁MgFe2O4形成立方尖晶石。每个复合物的平均晶粒尺寸为约0.5μm。由于复合材料中存在MgFe2O4,M-H回路显示出软亚铁磁性。 MgFe2O4重量分数的增加增加了饱和磁化强度,并稍微改变了矫顽场。复阻抗图可以由并联的R和C电路表示。 x = 0.5的复合样品在室温下具有最高的电阻,最低的电容和介电常数。由于麦克斯韦-瓦格纳(Maxwell-Wagner)机制,介电常数在低频下表现出非常强的色散,而在高频下表现出轻微的色散。根据获得的结果,所有复合样品在低频范围内均表现出高介电常数和切线损耗。
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