Abstract
Well-developed, dense and fine-grained MgO–(Ba0.6Sr0.4)TiO3 with 40wt% MgO content (denoted as BST–MgO) bulk ceramics were fabricated by high-energy ball mechanochemical technique using a hybrid processing. Based on this technique, the fabrication temperature was as low as 1200°C i.e., 200°C lower than that required by using conventional solid-state process. At the same time, dense, homogeneous and crack-free ceramic–ceramic 0–3 nanocomposite BST–MgO thick film was obtained at 700°C using the spin-coating method. At 10kHz and room temperature, the BST–MgO bulk ceramics exhibited a moderate dielectric constant of about 500 and low loss tangent of less than 0.005; while for the nanocomposite thick films, the dielectric constant and loss tangent were about 140 and less than 0.03 (at 100kHz) respectively. In addition, both the bulk ceramics and thick film show a broad and diffused phase transition. The dielectric room-temperature tunabilities measured at 100kHz were found to be 4% at 1.5kV/mm for the bulk ceramic, and 17% at 10kV/mm for nanocomposite thick film.
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