A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
An elastic-viscoplastic model for saturated frozen soils
From the material science point of view, saturated frozen soil is a natural particulate composite, composed of solid grains, ice and unfrozen water. The mechanical behaviour of such a material is strongly affected by the amount of ice. The amount of ice depends on the temperature and the applied mechanical stresses. The influence of ice content and temperature on the mechanical behaviour and the coupling effects on the reverse direction can be mentioned as the main difference between frozen and unfrozen soils. On the other hand, considering the highly rate-dependent behaviour of ice, rate-sensitive behaviour of frozen soils is expected. This rate dependency is also affected by the amount of ice existed in the composite. In the light of these differences, an elastic-viscoplastic constitutive model for describing the mechanical behaviour of saturated frozen soils is proposed. By dividing the total stress into fluid pressure and solid phase stress, in addition to consideration of the cryogenic suction, the model is formulated within the framework of two stress-state variables. The rate-dependent behaviour is considered using the so-called over-stress method. In unfrozen state, the model becomes a conventional elastic-viscoplastic critical state model. Model predictions are compared with the available test results and reasonable agreement is achieved.
An elastic-viscoplastic model for saturated frozen soils
From the material science point of view, saturated frozen soil is a natural particulate composite, composed of solid grains, ice and unfrozen water. The mechanical behaviour of such a material is strongly affected by the amount of ice. The amount of ice depends on the temperature and the applied mechanical stresses. The influence of ice content and temperature on the mechanical behaviour and the coupling effects on the reverse direction can be mentioned as the main difference between frozen and unfrozen soils. On the other hand, considering the highly rate-dependent behaviour of ice, rate-sensitive behaviour of frozen soils is expected. This rate dependency is also affected by the amount of ice existed in the composite. In the light of these differences, an elastic-viscoplastic constitutive model for describing the mechanical behaviour of saturated frozen soils is proposed. By dividing the total stress into fluid pressure and solid phase stress, in addition to consideration of the cryogenic suction, the model is formulated within the framework of two stress-state variables. The rate-dependent behaviour is considered using the so-called over-stress method. In unfrozen state, the model becomes a conventional elastic-viscoplastic critical state model. Model predictions are compared with the available test results and reasonable agreement is achieved.
An elastic-viscoplastic model for saturated frozen soils
Ghoreishian Amiri, S.A. (author) / Grimstad, G. (author) / Kadivar, M. (author)
European Journal of Environmental and Civil Engineering ; 26 ; 2537-2553
2022-05-19
17 pages
Article (Journal)
Electronic Resource
Unknown
An elastic-viscoplastic model for frozen soils
| British Library Conference Proceedings | 2006
Unified hardening (UH) model for saturated frozen soils
| Elsevier | 2025