Synthesis of High-Purity Ceramic Nano-Powders Using Dissolution Method

S. Pratapa, Ella Agustin Dwi Kiswanti, Dien Rosma Diana, Y. Hariyani, Lisma Dian Kartika Sari, M. Musyarofah, T. Triwikantoro, M. Baqiya
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引用次数: 1

Abstract

A set of ceramic powders has been synthesized using a “ bottom-up ” approach which is denoted here as the dissolution method. The raw materials were metal powders or minerals. The dissolution media were strong acid or base solutions. In the case of metallic raw materials, magnesium and titanium powders were sepa-rately dissolved in hydrochloric acid to obtain their precursors. They were then dried, washed, and calcined in air at various temperatures to produce pure MgO and TiO 2 nano-powders. Pure MgTiO 3 nano-powders by mixing the precursors at the stoichiometric ratio and calcining the dried mixture at a temperature as low as 700°C have also been successfully synthesized. In the mineral case, local zircon sand was used as the raw material. A standard procedure to extract the “ clean ” and pure zircon powder was applied which included washing, magnetic separation, and reac-tions using hydrochloric acid and sodium hydroxide. A pure zircon nano-powder was obtained by applying mechanical ball-milling to the zircon powder. The zircon powder was also chemically dissociated to give amorphous silica (SiO 2 ), cristobalite, amorphous zirconia (ZrO 2 ), and nanometric tetragonal zirconia powders.
溶解法制备高纯度纳米陶瓷粉体
采用“自下而上”的方法合成了一组陶瓷粉末,这里称为溶解法。原料是金属粉末或矿物。溶解介质为强酸或强碱溶液。以金属原料为例,将镁粉和钛粉分别溶解在盐酸中,得到它们的前体。然后将它们干燥,洗涤,并在不同温度下在空气中煅烧,以生产纯MgO和二氧化钛纳米粉末。将前驱体按化学计量比混合,在低至700℃的温度下煅烧,成功地合成了纯净的mgtio3纳米粉体。在矿物案例中,以当地的锆石砂为原料。采用标准程序提取“干净”的纯锆石粉末,包括洗涤、磁选和盐酸和氢氧化钠反应。采用机械球磨法制备了纯锆石纳米粉。锆石粉末也被化学解离得到无定形二氧化硅(sio2)、方石英、无定形氧化锆(ZrO 2)和纳米四边形氧化锆粉末。
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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