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The frost heave characteristics of a volcanic coarse-grained soil quantified by particle image velocimetry
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  • Junping Ren,
  • Shoulong Zhang,
  • Tatsuya Ishikawa,
  • Shuangyang Li,
  • Chong Wang
Junping Ren
Lanzhou University, Lanzhou University

Corresponding Author:[email protected]

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Shoulong Zhang
Hokkaido University, Hokkaido University
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Tatsuya Ishikawa
Hokkaido University, Hokkaido University
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Shuangyang Li
Northwest Institute of Eco-Environment and Resources, Northwest Institute of Eco-Environment and Resources
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Chong Wang
Lanzhou University, Lanzhou University
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Abstract

The increasing use of the seasonally frozen and permafrost regions for civil engineering constructions and the effects of global warming on these regions have stimulated research on the behaviors of frozen soils. In the present study, the frost heave characteristics of a coarse-grained soil with volcanic nature was experimentally investigated. A large soil tank model was established in laboratory for this purpose. The effects of temperature boundary, external water supply, and water transfer type on the frost heave characteristics of the volcanic soil were studied, through a series of frost heave tests. The particle image velocimetry (PIV) technique was used to quantify the full field deformation of the soil specimen. The results suggest that temperature gradient inside the soil specimen is the driving force for the migration of pore water and vapor. The largest increment in water content generally agrees well with the frost penetration depth. The contribution of vapor to the frost heave of the Komaoka soil specimen is typically small. The applied seeding method, selected subset size, image-object space calibration, and calculation processes ensured accurate PIV results. Discussions regarding the presented experimental investigation and the employment of PIV technique for quantifying frozen soil deformation are summarized. These findings and discussions can provide valuable insights into the frost heave behavior of the studied soil in particular, as well as promote the application of PIV for frozen soil engineering.