velikost textu

Výsledky projektu Vyšetření vlivu teploty na vlastnosti zadržování vody a mikrostrukturu českého bentonitu

Výsledky

▼▲Typ výsledku ▼▲Autor celku ▼▲Název celku
(Celkem 5 zázn.)
Sun Haiquan, Masin David, Najser Jan, Scaringi Gianvito. Water retention of a bentonite for deep geological radioactive waste repositories: High-temperature experiments and thermodynamic modeling. Engineering Geology, 2020, sv. 269, s. 1–14. ISSN 0013-7952. IF 3.909. [Článek v časopise]
This paper presents the influence of temperature on the water retention properties of bentonite. The authors use the thermodynamic model to predict the WRC by the internal relationship between relative humidity and sorption of heat. And the author summarizes this method, and it was validated by MX80 bentonite. This model can be future integrated into constitutive models.
Sun Haiquan, Masin David, Najser Jan, Nedela Vilem, Navratilova. Fractal characteristics of pore structure of compacted bentonite studied by ESEM and MIP methods. Acta Geotechnica, 2019, sv. 0, s. 0–14. ISSN 1861-1133. IF 3.247. [Článek v časopise]
Sun Haiquan, Najser Jan, Mašín David. Study the influence of different drying methods on the microstructure of bentonite. In Sergio A.B. da Fontoura, Ricardo Jose Rocca, José Pavón Mendoza. Rock Mechanics for Natural Resources and Infrastructure Development - Full Papers: Proceedings of the 14th International Congress on Rock Mechanics and Rock Engineering (ISRM 2019), September 13-18, 2. : CRC press Taylor & Francis , 2019. s. 3190–3195. [Článek ve sborníku]
Sun Haiquan, Mašín David, Najser Jan. Investigation of the influence of temperature on water retention properties of Czech Bentonite B75. In Haraldur Sigursteinsson, Sigurður Erlingsson and Bjarni Bessason. Proceedings of the XVII European Conference on Soil Mechanics and Geotechnical Engineering, Reykjavík, Iceland. : Icelandic Geotechnical Society, 2019. s. 1–8. ISBN 978-9935-9436-1-3. [Článek ve sborníku]
Sun Haiquan, Masin David, Najser Jan, The poster presents the water retention properties and microstructure properties of Czech bentonite under different suction levels. The fractal dimension was used to distinguish the different pores and the results consistent with the mercury intrusion porosity tests. [Jiný výsledek]