Author:
Xie Qijun,Su Lijun,Zhu Zhiwu
Abstract
AbstractA new constitutive model for frozen soils under high strain rate is developed. By taking the frozen soil as a composite material and considering the adiabatic temperature rise and interfacial debonding damage, the nonlinear dynamic response (NDR) of the frozen soil is predicted. At the same time, the relationship between instantaneous temperature and unfrozen water content is given, and an evolution rule of the volume fraction of ice particles is obtained. This relationship shows good agreement with experimental data. Using this new constitutive model, the stress–strain relationship of frozen soil under impact loading at temperatures of − 3 °C, − 8 °C, − 18 °C, and − 28 °C is calculated. There is good agreements between the results based on this new constitutive model and the data of dynamic impact.
Funder
NSFC-ICIMOD joint project
the “Belt
the National Natural Science Foundation of China
the Youth Training Program of Institute of Mountain Hazards and Environment
Publisher
Springer Science and Business Media LLC
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