用CuO助烧剂制备钚处理锆石陶瓷的工艺研究

IF 2.7 Q1 MATERIALS SCIENCE, CERAMICS Ceramics-Switzerland Pub Date : 2023-03-08 DOI:10.3390/ceramics6010041
Aidan A. Friskney, Ismail Aldean, C. Corkhill, L. R. Blackburn
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引用次数: 0

摘要

锆石结构陶瓷是固定分离钚的候选废材料。由于锆石和其他钛酸盐的耐火性能,在使用传统固态烧结路线时,去除最终废制品中的残余孔隙率仍然具有挑战性。在此,我们证明了添加CuO作为烧结助剂可以增加致密化并促进晶粒生长。此外,在低于通常要求的工艺温度(≥1350°C)下,锆石相的形成得到了增强。添加CuO使得使用比未掺杂组合物低250°C的工艺温度可以达到等效密度。在比未掺杂的锆石低150°C时,CuO的添加产生了有利的微观结构和相组合,这通过X射线衍射和扫描电子显微镜得到了证实。在某些加工温度下观察到CaTiO3和Ca0.25Cu0.75TiO3的二次相,这可能对废模板性能有害。CuO烧结助剂的使用为进一步发展陶瓷废料的热处理提供了途径。
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Process Development of Zirconolite Ceramics for Pu Disposition: Use of a CuO Sintering Aid
Zirconolite-structured ceramics are candidate wasteform materials for the immobilisation of separated Pu. Due to the refractory properties of zirconolite and other titanates, removing residual porosity remains challenging in the final wasteform product when utilising a conventional solid state sintering route. Herein, we demonstrate that the addition of CuO as a sintering aid increases densification and promotes grain growth. Moreover, zirconolite phase formation was enhanced at lower process temperatures than typically required (≥1350 °C). CuO addition allowed an equivalent density to be reached using process temperatures of 250 °C lower than the undoped composition. At 150 °C lower than the undoped zirconolite, the addition of CuO resulted in a favourable microstructure and phase assemblage, as confirmed via X-ray diffraction and scanning electron microscopy. Secondary phases of CaTiO3 and Ca0.25Cu0.75TiO3 were observed at some processing temperatures, which may prove deleterious to wasteform performance. The use of a CuO sintering aid provides an avenue for the further development of the thermal processing of ceramic wasteform materials.
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来源期刊
CiteScore
3.00
自引率
7.10%
发文量
66
审稿时长
10 weeks
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