Analysis and Control of Complex Cyclic Stress Paths for Frozen Soil
Publication: Cold Regions Engineering 2024: Sustainable and Resilient Engineering Solutions for Changing Cold Regions
ABSTRACT
Frozen soil engineering usually involves many dynamic loads, so it is necessary to study the deformation and dynamic characteristics of frozen soil under different dynamic loads. How to simulate and realize these complex cyclic stress paths is the premise. Based on five typical cyclic stress paths, their theoretical formulas are derived in this paper. Meanwhile, the loading effect of the paths is tested by the frozen soil hollow apparatus (FHCA-300). The results show that the paths can be controlled precisely by the FHCA-300. It is hoped to provide an experimental reference for the study of frozen soil under complex cyclic stress paths.
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Published In
Cold Regions Engineering 2024: Sustainable and Resilient Engineering Solutions for Changing Cold Regions
Pages: 408 - 412
History
Published online: May 9, 2024
ASCE Technical Topics:
- Cold regions engineering
- Continuum mechanics
- Deformation (mechanics)
- Dynamic loads
- Dynamics (solid mechanics)
- Engineering mechanics
- Freeze and thaw
- Frozen soils
- Geomechanics
- Geotechnical engineering
- Material mechanics
- Materials engineering
- Soil analysis
- Soil deformation
- Soil dynamics
- Soil mechanics
- Soil properties
- Soil stress
- Soils (by type)
- Solid mechanics
- Stress (by type)
- Structural analysis
- Structural dynamics
- Structural engineering
- Structural mechanics
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