Densifying BaTiO3 Polycrystalline Ceramics Without Affecting Size and Ferroelectric Properties

M. Taheri, B. Zanca, S. J. Villegas, M. Dolgos, S. Bryant, S. Trudel
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Abstract

High pressure and high temperature sintering (on the order of several MPa and up to 1400 °C) is the conventional process employed to achieve dense ceramics from polycrystalline materials. This traditional process influences microstructure and grain morphology of samples, affecting their physical properties and device performance. Here, we present the variation of grain size through the conventional one-step and compare it to two-step sintering for micron- and nano-sized particles. The effect of grain size on the spontaneous electric polarization and dielectric constant of BaTiO3 ceramics are investigated. We find that two-step sintering can achieve high relative densities, while minimizing grain growth. Such a study is of significant importance to enable the measurement of as-prepared samples, easing the understanding of size-dependent properties.
不影响尺寸和铁电性能的BaTiO3多晶陶瓷致密化
高压和高温烧结(约为几兆帕和高达1400°C)是用于从多晶材料中获得致密陶瓷的常规工艺。这种传统工艺影响了样品的微观结构和晶粒形态,影响了样品的物理性能和器件性能。在这里,我们展示了常规一步烧结的晶粒尺寸变化,并将其与两步烧结的微米级和纳米级颗粒进行了比较。研究了晶粒尺寸对BaTiO3陶瓷自发电极化和介电常数的影响。我们发现两步烧结可以获得较高的相对密度,同时最小化晶粒生长。这样的研究对制备样品的测量具有重要意义,有助于理解尺寸相关性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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