Environment-friendly Ca 2+/Cr 3+ co-doping LaAlO 3 ceramics with excellent infrared radiation performance for energy-saving

红外线的 材料科学 陶瓷 兴奋剂 放射化学 分析化学(期刊) 物理化学 纳米技术 光电子学 化学 物理 冶金 光学 环境化学
作者
Xinglai Yuan,Qinghu Wang,Runke Wu,Shaobai Sang,Yibiao Xu,Liang Xiong,Liping Pan,Bingbing Fan,Yawei Li,Rui Zhang,Jiangtao Li,Olena Volkova
出处
期刊:Journal of Advanced Ceramics [Springer Science+Business Media]
卷期号:14 (1): 9221017-9221017 被引量:22
标识
DOI:10.26599/jac.2024.9221017
摘要

Ca2+/Cr3+ co-doped LaAlO3 infrared radiation (IR) ceramics have been proved as potential energy-saving materials for high-temperature industry due to their high emissivity and high-temperature stability. However, Cr6+ formation commonly occurs in material to poses environmental and health risks, such as Cr6+ dissolution in water and CrO3(g) gaseous volatilization. Herein, we combined high emissivity with in-situ detoxification by introducing residual Al2O3 into Ca2+/Cr3+ co-doped LaAlO3 ceramics. Compared with the undoped ceramics, the addition of 20 wt% residual Al2O3 resulted in a 78.5% reduction to 18.44mg/kg (lower than E.U. standard of 20 mg/kg) in Cr6+ dissolution and a decrease in 77.8% CrO3(g) volatilization. This significant detoxification effect can be attributed to the formation of CaAl12-xCrxO19. Additionally, as the residual Al2O3 content increased from 5 wt% to 20 wt%, the ceramics maintained high emissivity, above 0.896 in the near-infrared and 0.781 in the mid-infrared band. Furthermore, the IR coating effectively enhanced surface temperature (from 767.1 °C/min to 790.7 °C/min) and heat radiation of heating source, improving the heating rate from 31.7 °C/min to 34.6 °C/min during water heating. This work offers a promising approach for designing environmentally friendly IR ceramics with excellent IR performance for energy-saving applications in high-temperature industry.
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