Yulong Miao scite author profile

Zeolite, as a common adsorption material, should be safely treated after adsorbing different nuclear wastes. In this study, different types of simulated zeolite wastes were successfully immobilized based on the exploring result of suitable experiment conditions. Firstly, sintering temperature was selected based on TG‐DSC and phase results, which represented mainly as glassy phase. Then, the holding time was chosen through density and Vickers hardness results. For the sintering of zeolite, the suitable temperature is 1500℃ and the holding time is 1 h. Through the fitting process, FT‐IR results demonstrate that the main microstructures compose of sheet silicates. Three types of simulated zeolite wastes can successfully transform into matrix and all the waste contents were uniformly immobilized. Finally, SEM‐EDS results prove that the matrix is glass‐ceramic which can well immobilize the considered nuclear wastes. This work proposes the idea of treatment of zeolite adsorbed material as a potential nuclear waste glass‐ceramic matrix and the suitable conditions were also investigated.

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Microwave vitrification of Sr-contaminated soil: microstructure, mechanical properties and chemical durability

Liu

Miao

Luo

et al. 2021

J Radioanal Nucl Chem

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Yulong Miao

Rapid solidification of Sr-contaminated soil by consecutive microwave sintering: mechanism and stability evaluation

Insight into the effect of Nd2O3 and CeO2 co-doped Gd2Zr2O7 ceramics without structural design: Phase evolution and chemical durability

The preparation of Nd metal from Taiwan black monazite

Treatment of zeolite adsorbed material as a potential nuclear waste glass‐ceramic matrix

Microwave vitrification of Sr-contaminated soil: microstructure, mechanical properties and chemical durability

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