在pva辅助的溶胶-凝胶路线中，通过不同的合成参数来调整Y2O3的性能

Q3 Materials Science

Cerâmica Pub Date : 2023-01-01 DOI:10.1590/0366-69132023693893425

J. C. Carvalho, G. F. Bispo, T. S. Lilge, C. S. Bezerra, A. B. Andrade, Z. S. Macedo, M. Valerio

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引用次数: 1

摘要

报道了合成参数对氧化钇(y2o3)形成过程中微观组织行为和形貌的影响。在聚乙烯醇溶液的辅助下，通过改变煅烧温度和溶液ph，采用溶胶-凝胶法制备了y2o3晶体。采用x射线粉末衍射结合Rietveld细化法研究了y2o3晶体的形成。采用Williamson-Hall形式分析了材料的显微组织性能。煅烧温度遵循在差热分析中观察到的热事件，并结合前驱体干凝胶的热重分析。结果表明，PVA和pH变化的结合可以最大限度地降低煅烧时间和温度。形貌分析表明，样品随pH值和煅烧温度的变化而具有不同的大小和外观。因此，合成过程中的参数可以用来调整y2o3的性能，如晶体大小、结构有序度和形貌，从而提高预期的应用。

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Tailoring the properties of Y2O3 via synthesis parameters varied during the PVA-assisted sol-gel route

The effect of synthesis parameters on the microstructural behavior and morphology during the yttrium oxide (Y 2 O 3 ) formation is reported. Y 2 O 3 crystals were produced by a modified sol-gel route assisted by polyvinyl alcohol solution varying the calcination temperature and solution pH. The crystalline phase formation was investigated using X-ray powder diffraction combined with the Rietveld refinement method. The microstructural properties were analyzed by using the Williamson-Hall formalism. The calcination temperature followed the thermal events observed in the differential thermal analysis combined with the thermogravimetric analysis of the precursor xerogel. It was seen that the combination of PVA and pH variation can be used to minimize the calcination time and temperature. The morphological analysis showed samples with different sizes and appearances depending on pH and calcination temperature. Therefore, it was shown that the parameters in the synthesis process can be used to tailor the properties of Y 2 O 3 , such as crystallite size, degree of structural ordering, and morphology, and consequently, improve the desired application.

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来源期刊

Cerâmica Materials Science-Ceramics and Composites

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： A Revista Cerâmica, órgão oficial da Associação Brasileira de Cerâmica (ABCERAM) publica contribuições originais de interesse na área de cerâmica, compreendendo arte cerâmica, abrasivos, biocerâmicas, cerâmicas avançadas, cerâmica branca, cerâmica de mesa, cerâmica eletroeletrônica, cerâmica estrutural, cerâmica magnética, cerâmica nuclear, cerâmica óptica, cerâmica química, cerâmica termomecânica, cerâmica vermelha, cimento, compósitos de matriz cerâmica, materiais refratários, materiais de revestimento, matérias-primas, vidrados, vidros e vitrocerâmicas, análise microestrutural, ciência básica, instrumentação, processos de fabricação, síntese de pós, técnicas de caracterização etc.