Plasticization of Alumina Toughened Zirconia Ceramics with the Silica Addition

Q3 Mathematics

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Pub Date : 2023-02-01 DOI:10.18698/1812-3368-2023-1-117-128

P. N. Ovchinnikov, N. Efremova, D. G. Zhigacheva, V. M. Vasyukov, V. V. Rodaev, A. Dmitrievskiy

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引用次数: 1

Abstract

The purpose of this work is to study features of deformation at the room temperature by the method of uniaxial compression of alumina toughened zirconia ceramics (stabilized with calcium oxide) with different content of the silicon dioxide (CaO-ATZ+SiO2). It was found that SiO2 addition to the CaO-ATZ-ceramic ensured manifestation of the signs of plasticity at the room temperature, i.e., yield stage in the loading diagrams. The most pronounced plasticization was manifested at the silicon dioxide content of 4 mol. %. In this case, plastic deformation (calculated as the difference between deformations corresponding to the tensile strength and conditional yield strength) reached the 0.79 % value. In addition, introduction of the SiO2 additive (2 mol. % concentration) caused an increase in the ultimate compressive strength to the value of 2.66 GPa and ultimate strain to the value of 1.79 %. It was shown that exceeding the threshold value of the SiO2 concentration (by more than 4.5 mol. %) caused a sharp embrittlement of the CaO-ATZ+SiO2-ceramics. Discovered ceramics plasticity at the room temperature is explained by an increase in the tetragonal phase transformability of zirconium dioxide, which enhances the role of the transformation toughening mechanism. Plasticity margin of the composite ceramics based on the zirconium dioxide was achieved at the room temperature and provides a prospect for expanding the area of its practical applications

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添加二氧化硅对氧化铝增韧氧化锆陶瓷的增塑作用

本文的目的是研究不同二氧化硅(CaO-ATZ+SiO2)含量的氧化铝增韧氧化锆陶瓷(用氧化钙稳定)在室温下的单轴压缩变形特征。结果表明，SiO2的加入保证了cao - atz陶瓷在室温下的塑性表现，即加载图中的屈服阶段。二氧化硅含量为4 mol. %时，塑化效果最明显。在这种情况下，塑性变形(以抗拉强度与条件屈服强度对应的变形之差计算)达到0.79%的值。此外，SiO2添加剂(2 mol. %浓度)的加入使材料的极限抗压强度提高到2.66 GPa，极限应变提高到1.79%。结果表明，SiO2浓度超过阈值(超过4.5 mol. %)会导致CaO-ATZ+SiO2-陶瓷发生急剧脆化。发现陶瓷在室温下塑性的原因是二氧化锆的四方相变能力增加，从而增强了相变增韧的作用机制。在室温下实现了二氧化锆复合陶瓷的塑性裕度，为扩大其实际应用领域提供了前景

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来源期刊

Herald of the Bauman Moscow State Technical University. Series Natural Sciences Mathematics-Mathematics (all)

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： The journal is aimed at publishing most significant results of fundamental and applied studies and developments performed at research and industrial institutions in the following trends (ASJC code): 2600 Mathematics 2200 Engineering 3100 Physics and Astronomy 1600 Chemistry 1700 Computer Science.