Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
A meso‐damage‐based constitutive model for yellow sandstone under dry–wet cycles
AbstractThe mechanical properties of rocks weaken under dry–wet cycles. This weakening may significantly modify the safety reserve of underground caverns or reservoir bank slopes. However, meso‐damage has not been carefully studied based on micromechanical observations and analyses. Therefore, in this study, meso‐damage of a yellow sandstone is investigated and a meso‐damage‐based constitutive model for dry–wet cycles is proposed. First, computed tomography scanning and uniaxial compression tests were conducted on yellow sandstones under different dry–wet cycles. Second, the evolution of rock mesostructures and the damage mechanism subjected to dry–wet cycles were simulated using the discrete element method with Particle Flow Code in 2 Dimensions (PFC2D) software. Third, a constitutive model was proposed based on the meso‐statistical theory and damage mechanics. Finally, this constitutive model was verified with the experimental results to check its prediction capability. It is found that the radius and number of pore throats in the sandstone increase gradually with the number of dry–wet cycles, and the pore structure connectivity is also improved. The contact force of sandstone interparticle cementation decreases approximately linearly and the continuity of the particle contact network is continuously broken. The meso‐deformation and strength parameters show similar declining patterns to the modulus of elasticity and peak strength of the rock sample, respectively. This meso‐damage‐based constitutive model can describe well the rock deformation in the initial pressure density stage and the damage stage under the coupling effect of dry–wet cycles and loads.
Highlights The evolution of mesostructural characteristics of sandstone under dry–wet cycles is observed. The meso‐damage deterioration mechanism of sandstone under dry–wet cycles is analyzed. The damage changes in the whole process of rock deformation and failure are obtained. The rock damage intrinsic model under the coupling of dry–wet cycles and load is proposed.
A meso‐damage‐based constitutive model for yellow sandstone under dry–wet cycles
AbstractThe mechanical properties of rocks weaken under dry–wet cycles. This weakening may significantly modify the safety reserve of underground caverns or reservoir bank slopes. However, meso‐damage has not been carefully studied based on micromechanical observations and analyses. Therefore, in this study, meso‐damage of a yellow sandstone is investigated and a meso‐damage‐based constitutive model for dry–wet cycles is proposed. First, computed tomography scanning and uniaxial compression tests were conducted on yellow sandstones under different dry–wet cycles. Second, the evolution of rock mesostructures and the damage mechanism subjected to dry–wet cycles were simulated using the discrete element method with Particle Flow Code in 2 Dimensions (PFC2D) software. Third, a constitutive model was proposed based on the meso‐statistical theory and damage mechanics. Finally, this constitutive model was verified with the experimental results to check its prediction capability. It is found that the radius and number of pore throats in the sandstone increase gradually with the number of dry–wet cycles, and the pore structure connectivity is also improved. The contact force of sandstone interparticle cementation decreases approximately linearly and the continuity of the particle contact network is continuously broken. The meso‐deformation and strength parameters show similar declining patterns to the modulus of elasticity and peak strength of the rock sample, respectively. This meso‐damage‐based constitutive model can describe well the rock deformation in the initial pressure density stage and the damage stage under the coupling effect of dry–wet cycles and loads.
Highlights The evolution of mesostructural characteristics of sandstone under dry–wet cycles is observed. The meso‐damage deterioration mechanism of sandstone under dry–wet cycles is analyzed. The damage changes in the whole process of rock deformation and failure are obtained. The rock damage intrinsic model under the coupling of dry–wet cycles and load is proposed.
A meso‐damage‐based constitutive model for yellow sandstone under dry–wet cycles
Deep Underground Science and Engineering
Qin, Zhe (Autor:in) / Zhang, Runchang (Autor:in) / Mao, Weizheng (Autor:in) / Han, Jihuan (Autor:in) / Li, Zhiwen (Autor:in) / Zhang, Sunhao (Autor:in)
Deep Underground Science and Engineering ; 3 ; 497-507
01.12.2024
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
A meso‐damage‐based constitutive model for yellow sandstone under dry–wet cycles
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