Study on the mechanical characteristics of hard rock strata and the response law of overlying strata stress field under structural transient excitation

Study on the mechanical characteristics of hard rock strata and the response law of overlying strata stress field under structural transient excitation

Abstract It is the theoretical basis for the prevention and control of coal and rock disasters to reveal the occurrence mechanism of mechanical response of coal and rock in stope. The transient characteristics of the spatial structure of overlying strata and the mechanical response of coal and rock...

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Bibliographic Details
Main Authors: Zhuangzhuang Yan, Shenghu Luo, Yongping Wu, Panshi Xie, Hongwei Wang, Chengyang Tian, Jiabo Gao
Format: Article
Language:English
Published: Nature Portfolio 2025-07-01
Series:Scientific Reports
Subjects:
Spatial structure of overlying strata
Transient excitation
Hard rock strata
Mechanical response
Principal stress characteristics
Online Access:https://doi.org/10.1038/s41598-025-04098-x
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Summary:Abstract It is the theoretical basis for the prevention and control of coal and rock disasters to reveal the occurrence mechanism of mechanical response of coal and rock in stope. The transient characteristics of the spatial structure of overlying strata and the mechanical response of coal and rock in different regions under the action of pressure are studied by similar simulation experiments. On this basis, the elastic foundation beam model is established to analyze the flexural deformation response of hard rock strata under the influence of structural transient. Combined with the numerical simulation method, the step change characteristics of overlying strata stress field before and after the fracture of hard rock strata are compared and analyzed, and the influence mechanism of combined deformation of hard rock strata on the mechanical response of coal and rock in stope is studied. The results show that the breaking of hard rock strata will change the spatial structure of overlying strata. The basic roof and key strata will undergo flexural deformation response due to the change of mechanical constraints in the transient region, and the principal stress state of coal and rock will change within its influence range. Under the influence of structural transients, the symmetrical flexural deformation law of the key stratum makes the overlying strata stress field produce symmetrical step-change characteristics. The third principal stress in the middle of the overlying strata above the goaf changes to both sides, which makes it produce the step-change law of decreasing in the middle and increasing on both sides. The intensified sinking deflection deformation of the key stratum after weighting leads to the positive step change of its internal principal stress, while the rebound deflection deformation of the main roof makes its internal principal stress negative step change, and further changes the stress state of coal rock within its influence range, resulting in the decrease of stress concentration and the migration of peak position. Therefore, the mechanical response of the hard rock strata under the transient influence of the spatial structure of the overlying strata changes the original state of the stress field of the overlying strata, and plays the role of bearing the weight of the overlying strata, which is carried by the stress arch structure formed by the basic roof of the equilibrium state before pressure to the key strata of the equilibrium state after weighting. The results of this study have important theoretical reference significance for the prevention and control of coal rock dynamic disasters.
ISSN:2045-2322

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