TY - JOUR ID - 15951 TI - Dielectric and magneto-dielectric properties of x [Co<sub>0.9</sub>Ni<sub>0.1<sub>Fe<sub>2</sub>O<sub>4</sub>] - (1-x) [Ba(Zr<sub>0.2</sub>Ti<sub>0.8</sub>)O<sub>3</sub>] particulate multiferroic composites JO - Advanced Materials Proceedings JA - AMP LA - en SN - 2002-4428 AU - M. Mane, Sagar AU - G. Chavan, Sanjay AU - M. Tirmali, Pravin AU - J. Salunkhe, Dadasaheb AU - B.Kolekar, Chandrakant AU - B. Kulkarni, Shrinivas AD - Department of Physics, The Institute of Science, 15 Madam Cama Road Mumbai, 400032, India Department of Physics, Sahakar Maharshi Shankarrao Mohite-Patil Mahavidyalaya, Natepute Solapur, 413109, India AD - Nano-Composite Research Laboratory, Department of Physics, Karmveer Bahurao Patil Mahavidyalaya, AD - Department of Physics, The Institute of Science, 15 Madam Cama Road Mumbai, 400032, India AD - Nano-Composite Research Laboratory, Department of Physics, Karmveer Bahurao Patil Mahavidyalaya, Pandharpur Solapur, 413304, India AD - Department of Physics, Sahakar Maharshi Shankarrao Mohite-Patil Mahavidyalaya, Natepute Solapur, 413109, India Y1 - 2016 PY - 2016 VL - 1 IS - 1 SP - 53 EP - 59 KW - BZT-CNFO KW - Multiferroics KW - Magneto-dielectric KW - hydroxide co-precipitation KW - microwave sintering DO - 10.5185/amp.2016/110 N2 - Present paper reports on synthesis and characterization of x[Co0.9Ni0.1Fe2O4]-(1-x)[Ba(Zr0.2Ti0.8)O3] multiferroic magneto-dielectric composite of ferrite and ferroelectric phase for x=0.1, 0.2 and 0.3 via hydroxide co-precipitation method.&nbsp; The well compacted disc shape samples of the MD composites are sintered with microwave sintering technique at 1100&deg;C. These composites are investigated for their structural, micro-structural, dielectric, ferroelectric and magneto-dielectric properties. X-ray diffraction shows the presence of the peaks corresponding to both ferroelectric and ferrite phases in the composites. Temperature dependent dielectric spectra gives the two anomalies one at lower temperature (below 50&deg;C) corresponds to the ferroelectric transition temperature and other at the higher temperature (above 350&deg;C) corresponding to magnetic transition. The variation of dielectric constant and loss tangent with applied magnetic field between 0-1 tesla in the frequency range of 500 Hz to 1 MHz are investigated. Dielectric constant possesses contribution due to magnetic field dependent interfacial polarization and variations due to the induced stress which can be explained on the observed MD effect.&nbsp; UR - https://amp.iaamonline.org/article_15951.html L1 - ER -