Preparation and Stabilization of Monoclinic Zirconia by Yttria through Mechanical Alloying

wagih eldesouky, Ahmed Abd El_Kareem, hussein abd el-aziz, E. Mosa
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Abstract

Yttria-stabilized zirconia is a vital material for a variety of high-tech industrial applications. Fully stabilized zirconia is an excellent material for manufacturing of solid electrolyte for solid oxide fuel cell. In the present study, high purity zirconia was successfully synthesized from Egyptian zircon. The produced zirconia was subsequently fully stabilized by 10 mol% yttria via mechanical alloying. Mechanical alloying was conducted in a planetary ball mill with; stainless steel milling assembly, at a rotation speed of 350 rpm, and ball to powder weight ratio of 10. The effect of milling time (up to 32 h) on phase transformation was studied. Characterization of the as prepared zirconia and milled samples was conducted by X-ray diffraction, scanning electron microscopy, and energy dispersive X-ray analysis. The obtained results revealed that, the crystal structure of the prepared zirconia is monoclinic. The degree of stabilization and the level of contamination increase gradually with the course of milling. Under the described conditions, the required time for full stabilization was 32 h. The produced powder is nanocrystalline (13.7 nm) with a submicron particle size.
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氧化钇机械合金化制备单斜氧化锆及其稳定性研究
钇稳定氧化锆是各种高科技工业应用的重要材料。完全稳定的氧化锆是制造固体氧化物燃料电池固体电解质的优良材料。本研究以埃及锆石为原料,成功合成了高纯度氧化锆。随后通过机械合金化用10mol%的氧化钇使制备的氧化锆完全稳定。机械合金化是在行星球磨机中进行的;不锈钢铣削组件,转速为350rpm,球与粉末重量比为10。研究了球磨时间(最长可达32h)对相变的影响。通过X射线衍射、扫描电子显微镜和能量色散X射线分析对所制备的氧化锆和研磨样品进行了表征。结果表明,制备的氧化锆晶体结构为单斜晶系。随着研磨过程的进行,稳定程度和污染程度逐渐增加。在所述条件下,完全稳定所需的时间为32小时。所产生的粉末是具有亚微米粒度的纳米晶体(13.7纳米)。
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