Study on damage evolution and constitutive model of sandstone under the coupled effects of wetting-drying cycles and cyclic loading

•Coupled damage caused by wetting-drying cycles and cyclic loading was studied.•A damage constitutive model was developed considering the coupled damage.•The damage evolution law of sandstone under coupled damage was analyzed. A constitutive model for damage is proposed to describe the deformation a...

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Bibliographic Details
Published in:Engineering fracture mechanics 2021-08, Vol.253, p.107883, Article 107883
Main Authors: Shi, Zhanming, Li, Jiangteng, Zhao, Yuan
Format: Article
Language:English
Subjects:
Compression tests
Constitutive modelling
Constitutive models
Cyclic loading
Cyclic loads
Damage
Damage evolution
Deformation effects
Discrete element method
Drying
Evolution
Mathematical models
Numerical simulation
Sandstone
Statistical analysis
Statistical mechanics
Strain
Stress-strain relationships
Weibull distribution
Wetting
Wetting-drying cycles
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Summary:•Coupled damage caused by wetting-drying cycles and cyclic loading was studied.•A damage constitutive model was developed considering the coupled damage.•The damage evolution law of sandstone under coupled damage was analyzed. A constitutive model for damage is proposed to describe the deformation and strength characteristics of sandstone under the coupled effects of wetting-drying cycles and cyclic loading. First, the microparameters of sandstone were calibrated by wetting-drying cycles and uniaxial compression tests. Subsequently, a discrete element model of the specimen was established by numerical simulation software (PFC2D), and a cyclic loading test was performed to obtain relevant test data. Second, assuming the microdamage of the sample is described by the Weibull distribution, the macrodamage can be described by a mechanical model. Based on the Lemaitre strain equivalence hypothesis, the coupled damage variable of the specimens was derived. Finally, the constitutive model of damage of sandstone under the coupled effects of wetting-drying cycles and cyclic loading was derived from the statistical mechanics theory of damage. In addition, the damage evolution process of sandstone under the coupled effects of wetting-drying cycles and cyclic loading was validated by an analysis of the microscopic force field and calculations of the damage variable. Compared with the existing models, the constitutive model proposed in this paper can better reflect the stress-strain relationship and damage evolution of sandstone under the coupled effects of wetting-drying cycles and cyclic loading.
ISSN:0013-7944
1873-7315
DOI:10.1016/j.engfracmech.2021.107883