Thermo-seismic characteristics of a crushed-rock interlayer embankment on a permafrost slope

Crushed rock is a highly porous medium widely used to cool embankments in permafrost regions. The thermal transfer of a crushed-rock embankment (CRE) was fully investigated by experimental and numerical methods. However, the CRE's mechanical process, especially under dynamic loading, is a key f...

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Bibliographic Details
Published in:Cold regions science and technology 2018-07, Vol.151, p.249-259
Main Authors: Li, Shuangyang, Zhang, Mingyi, Pei, Wansheng, Lai, Yuanming, Yu, Wenbing
Format: Article
Language:English
Subjects:
Crushed-rock interlayer embankment
Permafrost region
Seasonal difference
Seismic response
Thermo-dynamic model
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Summary:Crushed rock is a highly porous medium widely used to cool embankments in permafrost regions. The thermal transfer of a crushed-rock embankment (CRE) was fully investigated by experimental and numerical methods. However, the CRE's mechanical process, especially under dynamic loading, is a key factor for its safe operation but has been ignored. To study the dynamic characteristics of the CRE, we proposed a thermo-dynamic coupled model for the CRE, selected a crushed-rock interlayer embankment (CRIE) on a permafrost slope, and conducted a series of numerical computations over four seasons in its 20th service year. The CRIE temperature changed seasonally, causing seasonal differences in mechanical behaviors and seismic responses. By comparing the acceleration, velocity, displacement and pore water pressure responses of the CRIE, the seismic damage mechanism of the CRIE is analyzed and the time at which the earthquake-induced damage of the CRIE is the heaviest among these four seasons is identified. The numerical model and results in the study can provide theoretical support to the construction and maintenance of the CRIE as well as a reference for further study of the CRE in permafrost regions. •A numerical water-heat-mechanics model for silty clay is derived and corresponding computer program is developed.•A one-side freezing experiment of silty clay column is carried out to analyze the water-heat-mechanics interaction.•The water-heat-mechanics interaction of the freezing silty clay is analyzed by experimental and numerical simulations.
ISSN:0165-232X
1872-7441
DOI:10.1016/j.coldregions.2018.03.019