Xin Zhao scite author profile

SUMMARYStress wave attenuation across fractured rock masses is a great concern of underground structure safety. When the wave amplitude is large, fractures experience nonlinear deformation during the wave propagation. This paper presents a study on normal transmission of P-wave across parallel fractures with nonlinear deformational behaviour (static Barton-Bandis model). The results show that the magnitude of transmission coefficient is a function of incident wave amplitude, nondimensional fracture spacing and number of fractures. Two important indices of nondimensional fracture spacing are identified, and they divide the area of nondimensional fracture spacing into three parts (individual fracture area, transition area and small spacing area). In the different areas, the magnitude of transmission coefficient has different trends with nondimensional fracture spacing and number of fractures. In addition, the study reveals that under some circumstances, the magnitude of transmission coefficient increases with increasing number of fractures, and is larger than 1.

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UDEC modelling on wave propagation across fractured rock masses

Zhao

Cai³

et al. 2008

Computers and Geotechnics

118

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Normal Transmission of S-Wave Across Parallel Fractures with Coulomb Slip Behavior

Zhao

Hefny

et al. 2006

J. Eng. Mech.

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Xin Zhao

A further study of P-wave attenuation across parallel fractures with linear deformational behaviour

P-wave transmission across fractures with nonlinear deformational behaviour

UDEC modelling on wave propagation across fractured rock masses

Normal Transmission of S-Wave Across Parallel Fractures with Coulomb Slip Behavior

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