Digital spatial cracking behaviors of fine‐grained sandstone with precracks under uniaxial compression

Zhou, Xiaoping; Zhao, Zhi; Liu, Yang

doi:10.1002/nag.3088

Cited by 16 publications

(4 citation statements)

References 31 publications

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“…Secondary cracks are the main cause of specimen damage. For a single-flaw specimen, it has been shown 34,[44][45][46] that most of the first and secondary crack initiation locations are located at the tip of the flaw. However, the influence degree of the first and secondary crack on the orthogonal cross flaws specimens is different under different α; therefore, the initiation locations of the first cracks and secondary cracks are different.…”

Section: Crack Initiation Positionmentioning

confidence: 99%

Numerical investigation on the influence of secondary flaw lengths on the mechanical characteristics and cracking behaviour of red sandstone containing orthogonal cross flaws

Xu,

Dou,

Zhao

et al. 2024

Num Anal Meth Geomechanics

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Flaw length has a significant effect on the cracking behaviour of fractured rock. PFC2D was used to simulate the uniaxial compression of red sandstone samples with secondary flaw lengths L2 of 0 mm, 5 mm, 10 mm, 15 and 20 mm under different primary flaw angles α(α = 0°, 15°, 30°, 45°, 60°, 75°, and 90°). Based on the simulation results, the effects of the secondary flaw length on the mechanical parameters, crack initiation location and crack evolution process of the fractured rock were analysed. Then, a method for judging the initiation location of the first cracks was proposed. Finally, the characteristics of the particle displacement field at preexisting flaw tips during first and secondary crack initiation were analysed. The results of this study are helpful for more deeply understanding the cracking behaviour of fractured rock.

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Section: Crack Initiation Positionmentioning

confidence: 99%

Numerical investigation on the influence of secondary flaw lengths on the mechanical characteristics and cracking behaviour of red sandstone containing orthogonal cross flaws

Xu,

Dou,

Zhao

et al. 2024

Num Anal Meth Geomechanics

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“…In a study by , three-dimensional observation of fine structural changes in a bi-soil body under triaxial compression using CT scanning tests demonstrated that changes in local mechanical properties significantly influence the development and propagation of overall cracks. Zhou et al (2020) used X-ray computed tomography imaging and digital image correlation techniques to examine the seismic cracking behavior of sandstone under uniaxial compression. They quantitatively analyzed the layered anisotropic damage and spatial crack evolution using the defined numerical anisotropic damage index and numerical damage rate, respectively.…”

Section: Introductionmentioning

confidence: 99%

Automated crack detection and digital modeling of hydraulic fracture propagation in muddy shale using deep learning based on multi-scale feature and residual convolution improved U-net model

QU,

JIA,

CHEN

et al. 2024

Preprint

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The extension of fine microscopic cracks in muddy shale during water saturation-deydration circulation has an important role in the propagation of hydraulic fractures and the formation of fracture network. However, traditional image processing methods for segmenting CT scan images of muddy shale are prone to low efficiency and poor accuracy, as well as lack automation and intelligence. This study proposes a muddy shale crack segmentation network (MSCS-Net) based on the U-Net model that fuses the residual network and multi-scale features of Convolutional Neural Networks (CNNs). The proposed MSCS-ett efficiently segmented muddy shale cracks in CT scanned images after a degradation cycle, allowing for both qualitative and quantitative analysis. The results showed that the values of precision (P), recall (R), F1 score (F1_score), Intersection and Union Ratio (IoU) and Pixel Accuracy (PA) of the proposed MSCS-Net were 91.27%, 93.89%, 92.56%, 85.32% and 98.34%, respectively. Besides, the detection performance of the MSCS-Net was also compared with that of the other three different deep learning models (U-Net, U-Net3 + and Attention U-Net). The test results have demonstrated the superiority of the MSCS-Net over the other three network models in crack detection, localization and segmentation.

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“…Fracture mechanisms, including displacement discontinuities, shear band characteristics and crack interfaces, are also analyzed by the DIC technology [27][28][29][30]. Zhou et al studied crack types, real-time cracking behaviors, and mechanical properties by X-ray CT and DIC techniques in which five cracking stages were divided [31]. Bésuelle et al used high resolution, fast X-ray micro tomography (synchrotron radiation) to evaluate the onset and evolution of strain localization in Callovo-Oxfordian argillite under deviatoric loading and focused on the ductile behavior at higher confining stress [32].…”

Section: Introductionmentioning

confidence: 99%

Analysis on Spatial Variability of SRM Based on Real-Time CT and the DIC Method Under Uniaxial Loading

Zhang

et al. 2022

Front. Phys.

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Soil and rock mixture (SRM) consists of high-strength rock blocks and small-grained soils, which depend seriously on the rock size and the heterogeneity of structure. Because of inhomogeneous cementation between rock blocks, complex granulometric composition, and random distribution of rock blocks, these SRMs usually cause problems. Investigation of the localized deformation is critical for successful engineering designs, engineering safety assessment. In this work, uniaxial compression testing on the SRM with a rock block percentage of 40% (mass ratio) is performed under real-time computed tomography (CT) combined with digital image correlation (DIC) technology. Based on radial strain fields and shear fields, heterogeneity of strain fields and rock block motion is analyzed quantitatively by semi-variance. The results show that rock block is the main factor controlling the shear band geometry distribution. A localization strain band usually occurs along the soil and rock interfaces. From the experimental results by the DIC method, the damage factor is presented to describe the damage evolution of the SRM under uniaxial compression. The method proposed in this study can be used to quantitatively analyze the deformation characteristics of the SRM sample.

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Digital spatial cracking behaviors of fine‐grained sandstone with precracks under uniaxial compression

Cited by 16 publications

References 31 publications

Numerical investigation on the influence of secondary flaw lengths on the mechanical characteristics and cracking behaviour of red sandstone containing orthogonal cross flaws

Numerical investigation on the influence of secondary flaw lengths on the mechanical characteristics and cracking behaviour of red sandstone containing orthogonal cross flaws

Automated crack detection and digital modeling of hydraulic fracture propagation in muddy shale using deep learning based on multi-scale feature and residual convolution improved U-net model

Analysis on Spatial Variability of SRM Based on Real-Time CT and the DIC Method Under Uniaxial Loading

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