Effect of cerium oxide in reinforcing the properties and densification of yttria ceramics

Steffy Maria Jose, C. T. Mathew, Sam Solaman, J. K. Thomas
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Abstract

Synthesis of high-quality nanostructured Yttria/Ceria (Y2O3/CeO2) nanocomposite and the effect of ceria in reinforcing the properties of yttria are presented in the paper. The ultrafine starting powder is synthesized by a single step modified combustion technique and its green pellet is densified by a microwave sintering technique. The as-synthesized sample is characterized using X-ray diffraction (XRD) for determining the crystalline structure. All the peaks were indexed for a cubic structure of Y2O3 (ICDD: 89-5591) and CeO2 (ICDD: 81-0792). The crystallite size calculated for the highest peak (222) using the Debye-Scherrer equation is 24.05 nm. The crystallite sizes are in the range of 16-25 nm. The structural properties of the combustion product are examined by high-resolution transmission electron microscopy (HRTEM). Phase purity is ascertained by FTIR spectroscopy. The optical transmittance is examined by UV-Visible spectroscopy. The sample shows a band gap of 3.42 eV and a high refractive index of 2.36. The theoretical transmittance in the UV-Visible range is 71.8%. The nanopowder is compacted to pellets by hydraulic pressing and densified to 99.5 % of theoretical density at 1450 0C with a ramp rate of 200C/min for a soaking duration of 30 min which is better compared to pure yttria. The morphological investigations are done using field emission scanning electron microscopy (FESEM). The properties show that the sample can be effectively used to fabricate infrared transparent ceramic material.Synthesis of high-quality nanostructured Yttria/Ceria (Y2O3/CeO2) nanocomposite and the effect of ceria in reinforcing the properties of yttria are presented in the paper. The ultrafine starting powder is synthesized by a single step modified combustion technique and its green pellet is densified by a microwave sintering technique. The as-synthesized sample is characterized using X-ray diffraction (XRD) for determining the crystalline structure. All the peaks were indexed for a cubic structure of Y2O3 (ICDD: 89-5591) and CeO2 (ICDD: 81-0792). The crystallite size calculated for the highest peak (222) using the Debye-Scherrer equation is 24.05 nm. The crystallite sizes are in the range of 16-25 nm. The structural properties of the combustion product are examined by high-resolution transmission electron microscopy (HRTEM). Phase purity is ascertained by FTIR spectroscopy. The optical transmittance is examined by UV-Visible spectroscopy. The sample shows a band gap of 3.42 eV and a high refractive index of 2...
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氧化铈对增强氧化钇陶瓷性能和致密化的影响
本文介绍了高质量纳米结构氧化钇/铈(Y2O3/CeO2)纳米复合材料的合成及氧化铈对氧化钇性能的增强作用。采用单步改性燃烧技术合成超细起爆粉,采用微波烧结技术致密化其绿色球团。利用x射线衍射(XRD)对合成样品进行了表征,确定了晶体结构。所有峰均为Y2O3 (ICDD: 89-5591)和CeO2 (ICDD: 81-0792)的立方结构。利用Debye-Scherrer方程计算出峰值(222)的晶粒尺寸为24.05 nm。晶粒尺寸在16 ~ 25 nm之间。利用高分辨率透射电镜(HRTEM)研究了燃烧产物的结构特性。用FTIR光谱法确定了相纯度。用紫外-可见光谱法测定其透光率。样品的带隙为3.42 eV,折射率为2.36。紫外-可见光范围的理论透过率为71.8%。采用液压机将纳米粉体压实成球团,在1450℃条件下,以200℃/min的斜坡速率,浸泡时间为30 min,密度达到理论密度的99.5%,比纯钇更好。利用场发射扫描电子显微镜(FESEM)进行了形态学研究。实验结果表明,该样品可以有效地用于制备红外透明陶瓷材料。本文介绍了高质量纳米结构氧化钇/铈(Y2O3/CeO2)纳米复合材料的合成及氧化铈对氧化钇性能的增强作用。采用单步改性燃烧技术合成超细起爆粉,采用微波烧结技术致密化其绿色球团。利用x射线衍射(XRD)对合成样品进行了表征,确定了晶体结构。所有峰均为Y2O3 (ICDD: 89-5591)和CeO2 (ICDD: 81-0792)的立方结构。利用Debye-Scherrer方程计算出峰值(222)的晶粒尺寸为24.05 nm。晶粒尺寸在16 ~ 25 nm之间。利用高分辨率透射电镜(HRTEM)研究了燃烧产物的结构特性。用FTIR光谱法确定了相纯度。用紫外-可见光谱法测定其透光率。样品的带隙为3.42 eV,折射率为2…
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