Experimental study on uniaxial mechanical properties and crack propagation in sandstone containing a single oval cavity

The geometry and orientation of cavities in a rock mass has a significant influence on the failure mechanism and fracture propagation. The theoretical study of these behaviors is of great importance to enable fundamental understanding of unstable failure in rock mechanics. A very limited number of e...

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Published inArchives of Civil and Mechanical Engineering Vol. 18; no. 4; pp. 1359 - 1373
Main Authors Huang, Yan-Hua, Yang, Sheng-Qi, Hall, Matthew R., Tian, Wen-Ling, Yin, Peng-Fei
Format Journal Article
LanguageEnglish
Published London Elsevier B.V 01.09.2018
Springer London
Springer Nature B.V
Subjects
Acoustic emission
AE count
Brittle sandstone
Civil Engineering
Compression tests
Compressive properties
Compressive strength
Crack initiation
Crack propagation
Cracking (fracturing)
Engineering
Failure mechanisms
Failure modes
Fracture mechanics
Holes
Mechanical Engineering
Mechanical properties
Original Research Article
Oval cavity
Parameter sensitivity
Rock masses
Rock mechanics
Sandstone
Shear
Strength and deformation
Stress-strain curves
Structural Materials
Underground roadways
Oval cavity
Strength and deformation
Brittle sandstone
AE count
Crack initiation
Online AccessGet full text
ISSN1644-9665
2083-3318
DOI10.1016/j.acme.2018.04.005

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Abstract The geometry and orientation of cavities in a rock mass has a significant influence on the failure mechanism and fracture propagation. The theoretical study of these behaviors is of great importance to enable fundamental understanding of unstable failure in rock mechanics. A very limited number of experimental studies have been conducted for sandstone specimens containing oval cavities. Sensitive parameters include the short axis (b) to long axis (a) ratio. Here, we enhance the present understanding of crack coalescence behavior around an oval cavity by applying uniaxial compression tests to sandstone cores containing manually inserted single oval cavity, combined with photographic and acoustic emission monitoring. The b:a ratio was varied from 1/4 to 1/1, thus the cross-sectional cavity shape evolved from oval to a fully circular opening. The experimental results showed that the stress–strain curves of specimens containing cavities exhibited multiple stress reductions prior to peak strength, which led to a sudden increase in the accumulated AE count-rate. As the b:a ratio was increased, the uniaxial compressive strength, crack initiation stress and peak strain of cavity specimens all decreased linearly. Tensile fractures, shear fractures, and compound shear-tensile fractures were all observed to emanate from the cavities. Compared to the intact specimen, the failure mode of cavity specimens comprised a mixture of tensile and shear cracks, emanating from the tips (or surfaces) of the oval cavity. For specimen with a cavity angle of 45°, when the b:a ratio was below 1/2, no tensile crack from the surface of short axis was initiated, whereas tensile crack was observed clearly after b:a=1/2. This study not only increases our understanding of mechanical failure behavior in fractured rock, but also enhances our knowledge of underground tunneling or roadway stability.
AbstractList The geometry and orientation of cavities in a rock mass has a significant influence on the failure mechanism and fracture propagation. The theoretical study of these behaviors is of great importance to enable fundamental understanding of unstable failure in rock mechanics. A very limited number of experimental studies have been conducted for sandstone specimens containing oval cavities. Sensitive parameters include the short axis ( b ) to long axis ( a ) ratio. Here, we enhance the present understanding of crack coalescence behavior around an oval cavity by applying uniaxial compression tests to sandstone cores containing manually inserted single oval cavity, combined with photographic and acoustic emission monitoring. The b : a ratio was varied from 1/4 to 1/1, thus the cross-sectional cavity shape evolved from oval to a fully circular opening. The experimental results showed that the stress-strain curves of specimens containing cavities exhibited multiple stress reductions prior to peak strength, which led to a sudden increase in the accumulated AE count-rate. As the b : a ratio was increased, the uniaxial compressive strength, crack initiation stress and peak strain of cavity specimens all decreased linearly. Tensile fractures, shear fractures, and compound shear-tensile fractures were all observed to emanate from the cavities. Compared to the intact specimen, the failure mode of cavity specimens comprised a mixture of tensile and shear cracks, emanating from the tips (or surfaces) of the oval cavity. For specimen with a cavity angle of 45°, when the b : a ratio was below 1/2, no tensile crack from the surface of short axis was initiated, whereas tensile crack was observed clearly after b : a = 1/2. This study not only increases our understanding of mechanical failure behavior in fractured rock, but also enhances our knowledge of underground tunneling or roadway stability.
The geometry and orientation of cavities in a rock mass has a significant influence on the failure mechanism and fracture propagation. The theoretical study of these behaviors is of great importance to enable fundamental understanding of unstable failure in rock mechanics. A very limited number of experimental studies have been conducted for sandstone specimens containing oval cavities. Sensitive parameters include the short axis (b) to long axis (a) ratio. Here, we enhance the present understanding of crack coalescence behavior around an oval cavity by applying uniaxial compression tests to sandstone cores containing manually inserted single oval cavity, combined with photographic and acoustic emission monitoring. The b:a ratio was varied from 1/4 to 1/1, thus the cross-sectional cavity shape evolved from oval to a fully circular opening. The experimental results showed that the stress–strain curves of specimens containing cavities exhibited multiple stress reductions prior to peak strength, which led to a sudden increase in the accumulated AE count-rate. As the b:a ratio was increased, the uniaxial compressive strength, crack initiation stress and peak strain of cavity specimens all decreased linearly. Tensile fractures, shear fractures, and compound shear-tensile fractures were all observed to emanate from the cavities. Compared to the intact specimen, the failure mode of cavity specimens comprised a mixture of tensile and shear cracks, emanating from the tips (or surfaces) of the oval cavity. For specimen with a cavity angle of 45°, when the b:a ratio was below 1/2, no tensile crack from the surface of short axis was initiated, whereas tensile crack was observed clearly after b:a=1/2. This study not only increases our understanding of mechanical failure behavior in fractured rock, but also enhances our knowledge of underground tunneling or roadway stability.
Author Yin, Peng-Fei
Huang, Yan-Hua
Hall, Matthew R.
Tian, Wen-Ling
Yang, Sheng-Qi
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  givenname: Matthew R.
  surname: Hall
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  givenname: Wen-Ling
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  givenname: Peng-Fei
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  fullname: Yin, Peng-Fei
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Keywords Oval cavity
Strength and deformation
Brittle sandstone
AE count
Crack initiation
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  start-page: 1035
  issue: 6
  year: 2004
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  article-title: Consideration of fracture growth from an inclined slit and inclined initial fracture at the surface of rock and mortar in compression
  publication-title: Int. J. Rock Mech. Min. Sci.
  doi: 10.1016/j.ijrmms.2004.04.001
– volume: 15
  start-page: 21
  issue: 1
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  ident: 10.1016/j.acme.2018.04.005_bib0355
  article-title: Primary and remote fracture around underground cavities
  publication-title: Int. J. Numer. Anal. Met.
  doi: 10.1002/nag.1610150103
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Snippet The geometry and orientation of cavities in a rock mass has a significant influence on the failure mechanism and fracture propagation. The theoretical study of...
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SubjectTerms Acoustic emission
AE count
Brittle sandstone
Civil Engineering
Compression tests
Compressive properties
Compressive strength
Crack initiation
Crack propagation
Cracking (fracturing)
Engineering
Failure mechanisms
Failure modes
Fracture mechanics
Holes
Mechanical Engineering
Mechanical properties
Original Research Article
Oval cavity
Parameter sensitivity
Rock masses
Rock mechanics
Sandstone
Shear
Strength and deformation
Stress-strain curves
Structural Materials
Underground roadways
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Title Experimental study on uniaxial mechanical properties and crack propagation in sandstone containing a single oval cavity
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