Abstract
Many rock engineering accidents have proven that the coalescence of discontinuities in surrounding rock can have a major impact on the security and stable operation of energy infrastructure. To give an insight into the understanding of the crack propagation and coalescence in fissured rock masses, a series of uniaxial compression experiments were conducted on rock-like specimens containing nonpersistent fissures. The digital speckle correlation method (DSCM) and the acoustic emission (AE) monitoring system were adopted to capture the real-time strain field on the specimens’ surfaces and microfracturing events within specimens, respectively. The experimental results indicated that the strength and deformation modulus of specimens were significantly affected by fissure inclination. The damage process showed obvious progressive stain localization failure characteristics. The clear and intuitive full-field strain field development was successfully monitored by the DSCM technique. The real-time strain accumulation, crack initiation, propagation, and coalescence were also analyzed. Each time, the saltation of the strain field was usually accompanied by the fluctuation of the stress curve and obvious AE events. Crack coalescence modes between fissures changed from tension coalescence mode to mixed tension-shear coalescence mode, then to shear coalescence mode with an increase in fissure inclination. Five basic failure modes were identified from the experimental results: Tensile failure across the fissure planes, rotation failure of newly generated blocks, mixed failure mode, shear failure, and splitting failure. An investigation of the fracture processes of rock-like specimens containing nonpersistent fissures using these methods can enhance understanding of the fracture behavior of jointed rocks.
Highlights
The stability of surrounding rock is crucial for the security and stable operation of rock engineering, such as underground space development, reservoir engineering, slope projects, and Energies 2019, 12, 79; doi:10.3390/en12010079 www.mdpi.com/journal/energiesEnergies 2019, 12, x FOR PEER REVIEWThe stability of surrounding rock is crucial for the security and stable operation of rock engineering, such as underground space development, reservoir engineering, slope projects, and engineering
Scales distributed in the rock mass are a result of geological structure or engineering influence, which distributed in the rock mass are a result of geological structure or engineering influence, causes causes the mechanical behavior of a rock tomass showto asshow discontinuous, heterogeneous, and strongly which the mechanical behavior ofmass a rock as discontinuous, heterogeneous, and anisotropic
Li et al [40] employed Digital image correlation (DIC) to investigate the influence of pre-existing holes with different geometries on the strength and fracture behavior of specimens containing a hole during a uniaxial compression test
Summary
The stability of surrounding rock is crucial for the security and stable operation of rock engineering, such as underground space development, reservoir engineering, slope projects, and Energies 2019, 12, 79; doi:10.3390/en12010079 www.mdpi.com/journal/energies. Chen [25] experimentally investigated the deformation behavior of jointed rock masses for gypsum specimens and claimed that deformation behavior is related to the closing of fissures, the fracture process, and shear rupture along the shear plane. The strain field development of the specimens, which is crucial in revealing the mechanism of fracture behavior and the failure process under compression, cannot be obtained from traditional monitoring methods. Li et al [40] employed DIC to investigate the influence of pre-existing holes with different geometries on the strength and fracture behavior of specimens containing a hole during a uniaxial compression test. Despite numerous previous studies using DIC to investigate the fracture processes in rocks, due to the complexity of fissure distribution, research about the use of DIC to detect real-time full-field strain development of specimens containing a set of pre-existing parallel fissures has been rarely reported. The main conclusions of this study are presented at the end of the paper
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