Study on the influence mechanism of hole sizes on the mechanical properties and damage laws of sandstone

•Uniaxial compression-DIC-GDEM integration studies borehole size effects on sandstone.•Real-time monitoring captures H → X → S strain field evolution and failure patterns.•Critical threshold η = 0.085–0.141 dominates boundary-effect deviations enabling new rock instability approaches. To prevent and...

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Vydáno v:Theoretical and applied fracture mechanics Ročník 141; s. 105221
Hlavní autoři: Hou, Fubin, Wang, Hanpeng, Sun, Dekang, Zhou, Yuguo, Zhang, Bing, Wang, Wei, Zhang, Jinhou, Wu, Yunhao
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.02.2026
Témata:
Computational algorithm
Crack propagation
Size effect
Strain field evolution
Computational algorithm
Strain field evolution
Size effect
Crack propagation
ISSN:0167-8442
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Abstract •Uniaxial compression-DIC-GDEM integration studies borehole size effects on sandstone.•Real-time monitoring captures H → X → S strain field evolution and failure patterns.•Critical threshold η = 0.085–0.141 dominates boundary-effect deviations enabling new rock instability approaches. To prevent and control rock bursts in deep coal mines, the optimization of the geometric parameters of antiscour and pressure relief drilling is highly important for adjusting the stability of the surrounding rock. Therefore, through uniaxial compression tests, GDEM numerical simulations, DIC strain monitoring and other methods, the mechanical properties and damage laws of sandstone samples with different pore sizes are systematically studied. The crack propagation mode and strain field evolution law are discussed in depth, and the influence mechanism of the boundary effect under different pore sizes is analyzed. The results show that with increasing pore size, the uniaxial compressive strength decreases in the form of a quadratic function, and the number of sudden changes in the dissipated energy conversion rate and the peak value decrease gradually. The failure mode changes from an oblique linear shear failure to an S-type tensile shear failure, and the strain field morphology in the early stable loading stage changes from H-type to X-type and then S-type. Owing to the boundary effect, the theoretical and experimental results have different degrees of matching at φ = 0°, and the measured change trend of the key point strain value is basically consistent with the theoretical values. At φ = 26.75°, when η ranges from 0.085 to 0.141, the measured value exhibits a regular decrease, which subsequently changes to a rapid increase, which is quite different from the theoretical results. This study provides a theoretical basis for exploring the stability and catastrophic evolution trends of surrounding rock in deep engineering scenarios.
AbstractList •Uniaxial compression-DIC-GDEM integration studies borehole size effects on sandstone.•Real-time monitoring captures H → X → S strain field evolution and failure patterns.•Critical threshold η = 0.085–0.141 dominates boundary-effect deviations enabling new rock instability approaches. To prevent and control rock bursts in deep coal mines, the optimization of the geometric parameters of antiscour and pressure relief drilling is highly important for adjusting the stability of the surrounding rock. Therefore, through uniaxial compression tests, GDEM numerical simulations, DIC strain monitoring and other methods, the mechanical properties and damage laws of sandstone samples with different pore sizes are systematically studied. The crack propagation mode and strain field evolution law are discussed in depth, and the influence mechanism of the boundary effect under different pore sizes is analyzed. The results show that with increasing pore size, the uniaxial compressive strength decreases in the form of a quadratic function, and the number of sudden changes in the dissipated energy conversion rate and the peak value decrease gradually. The failure mode changes from an oblique linear shear failure to an S-type tensile shear failure, and the strain field morphology in the early stable loading stage changes from H-type to X-type and then S-type. Owing to the boundary effect, the theoretical and experimental results have different degrees of matching at φ = 0°, and the measured change trend of the key point strain value is basically consistent with the theoretical values. At φ = 26.75°, when η ranges from 0.085 to 0.141, the measured value exhibits a regular decrease, which subsequently changes to a rapid increase, which is quite different from the theoretical results. This study provides a theoretical basis for exploring the stability and catastrophic evolution trends of surrounding rock in deep engineering scenarios.
ArticleNumber 105221
Author Zhou, Yuguo
Sun, Dekang
Wang, Wei
Zhang, Bing
Wang, Hanpeng
Zhang, Jinhou
Wu, Yunhao
Hou, Fubin
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Keywords Computational algorithm
Strain field evolution
Size effect
Crack propagation
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Snippet •Uniaxial compression-DIC-GDEM integration studies borehole size effects on sandstone.•Real-time monitoring captures H → X → S strain field evolution and...
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SubjectTerms Computational algorithm
Crack propagation
Size effect
Strain field evolution
Title Study on the influence mechanism of hole sizes on the mechanical properties and damage laws of sandstone
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