在室温及55%相对湿度条件下对不同结晶度的含铯材料进行六年的水合作用评估，模拟放射性废物。

A Six-Year Hydration Evaluation of Cs-Bearing Materials at Room Temperature and 55% Relative Humidity Simulating Radioactive Waste with Different Crystallinities.

作者信息

Cerri Guido, Brundu Antonio

机构信息

Department of Architecture, Design and Urban Planning-GeoMaterials Lab, Sassari University, Via Piandanna 4, 07100 Sassari, Italy.

出版信息

Molecules. 2024 Mar 14;29(6):1302. doi: 10.3390/molecules29061302.

DOI:10.3390/molecules29061302

PMID:38542938

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10975553/

Abstract

Radioactive wastes often contain amorphous and crystalline phases, and vapor hydration can affect their durability. In this study, Cs-clinoptilolite was heated (at 1100 °C and for 2-36 h) to prepare the samples that were composed mainly of an amorphous phase (AmP) and CsAlSiO (≥94%) with minor CsAlSiO. Six samples with an AmP/CsAlSiO ratio from 26.5 to 0.1 were kept at 21 °C and 55% relative humidity, and their hydration was measured via thermogravimetry (TG) over a period of almost six years. The hydration that resulted was directly related to the AmP quantity. The increase in water content followed a logarithmic trend over time. It reached 1.95% in the AmP-richest material, while it attained only 0.07% in the most crystalline sample. The hydrolysis of the AmP led to an increase over time in the tightly bound water. Samples with an AmP of ≤19% demonstrated slightly higher durability due to the lower Cs content in the AmP.

摘要

放射性废物通常包含非晶相和晶相，水汽水合作用会影响其耐久性。在本研究中，对铯斜发沸石进行加热（在1100℃下加热2至36小时）以制备主要由非晶相（AmP）和CsAlSiO（≥94%）以及少量CsAlSiO组成的样品。将六个AmP/CsAlSiO比率从26.5到0.1的样品置于21℃和55%相对湿度的环境中，并通过热重分析法（TG）在近六年的时间里测量其水合作用。由此产生的水合作用与AmP的含量直接相关。含水量的增加随时间呈对数趋势。在AmP含量最高的材料中，含水量达到1.95%，而在结晶度最高的样品中仅为0.07%。AmP的水解导致紧密结合水随时间增加。由于AmP中铯含量较低，AmP含量≤19%的样品表现出略高的耐久性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/73cb/10975553/ae3c6a193315/molecules-29-01302-g001.jpg

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在室温及55%相对湿度条件下对不同结晶度的含铯材料进行六年的水合作用评估，模拟放射性废物。

A Six-Year Hydration Evaluation of Cs-Bearing Materials at Room Temperature and 55% Relative Humidity Simulating Radioactive Waste with Different Crystallinities.

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