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Effect of composition and temperature on the properties of High-Level Waste (HLW) glasses melting above 1200(degrees)C (Draft)

机译：熔化高于1200（℃）C（草案）的高放废物（HLW）玻璃

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Increasing the melting temperature of HLW glass allows an increase of waste loading (thus reducing product volume) and the production of more durable glasses at a faster melting rate. However, HLW glasses that melt at high temperatures differ in composition from glasses formulated for low temperature ((approximately)1150(degree)C). Consequently, the composition of high-temperature glasses falls in a region previously not well tested or understood. This report represents a preliminary study of property/composition relationships of high-temperature Hanford HLW glasses using a one-component-at-a-time change approach. A test matrix has been designed to explore a composition region expected for high-temperature high-waste loading HLW glasses to be produced at Hanford. This matrix was designed by varying several key components (SiO(sub 2), B(sub 2)O(sub 3), Na(sub 2)O, Li(sub 2)O, Fe(sub 2)O(sub 3), Al(sub 2)O(sub 3), ZrO(sub 2), Bi(sub 2)O(sub 3), P(sub 2)O(sub 5), UO(sub 2), TiO(sub 2), Cr(sub 2)O(sub 3), and others) starting from a glass based on a Hanford HLW all-blend waste. Glasses were fabricated and tested for viscosity, glass transition temperature, electrical conductivity, crystallinity, liquidus temperature, and PCT release. The effect of individual components on glass properties was assessed using first- and second- order empirical models. The first-order component effects were compared with those from low-temperature HLW glasses.

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Vienna, J. D.; Hrma, P. R.; Schweiger, M. J.;
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年度 1996
页码 1-55
总页数 55
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Borosilicate Glass ; High-Level Radioactive Wastes ; Chemical Composition ; Crystallization ; Electric Conductivity ; Leaching ; Optimization ; Stability ; Temperature Dependence ; Vitrification;

机译：硼硅酸盐玻璃;高放射性废物;化学成分;结晶;电导率;浸出;优化;稳定性;温度依赖性;玻璃化;

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机译：交代橄榄岩在4-6 GPa和1000摄氏度至1200摄氏度的水熔过程中的不相容元素行为
2. The dissolution rates of natural glasses as a function of their composition at pH 4 and 10.6, and temperatures from 25 to 74 degrees C [J] . Wolff-Boenisch D, Gislason SR, Oelkers EH, Geochimica et Cosmochimica Acta: Journal of the Geochemical Society and the Meteoritical Society . 2004,第23期

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3. Spodumene tailings for porcelain and structural materials: Effect of temperature (1050-1200 degrees C) on the sintering and properties [J] . Lemougna Patrick N., Yliniemi Juho, Ismailov Arnold, Minerals Engineering . 2019,第期

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4. Compositional effects on liquidus temperature of hanford simulated high-level waste glasses precipitating nepheline (NaAlSiO_4) [C] . H. Li, B. Jones, P. Hrma, Environmental issues and waste management technologies in the ceramic and nuclear industries III . 1998

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5. Effects of glass composition on the liquidus surfaces of high zirconia containing waste glasses. [D] . Jiemsirilers, Sirithan Bulpakdi. 2000

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6. Draft Genome Sequence of Cyanobacterium sp. Strain IPPAS B-1200 with a Unique Fatty Acid Composition [O] . Alexander Y. Starikov, Aizhan A. Usserbaeva, Maria A. Sinetova, 2016

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7. Effect of composition and temperature on the properties of High-Level Waste (HLW) glasses melting above 1200{degrees}C (Draft) [O] . Vienna, J.D., Hrma, P.R., Schweiger, M.J. 1996

机译：成分和温度对高于1200摄氏度（草案）的高放废物（HLW）玻璃性能的影响
8. Effect of composition and temperature on the properties of High-Level Waste (HLW) glasses melting above 1200(degrees)C (Draft) [R] . Vienna, J. D. , Hrma, P. R. , Schweiger, M. J. 1996

机译：成分和温度对熔化在1200（℃）以上的高放废物（HLW）玻璃性能的影响（草案）

Effect of composition and temperature on the properties of High-Level Waste (HLW) glasses melting above 1200(degrees)C (Draft)

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