Abstract
Block-in-matrix-rocks (bimrocks) are very complicated geological masses that cause many challenging problems during the design and construction of engineering projects, such as parameter determination and landsliding. Successful engineering design and construction depends on a suitable constitutive model and reliable design parameters for geological masses. In this paper, the vibration attenuation signal of welded bimrocks was obtained and studied using resonance test technology. Combined with a uniaxial compression test, a constitutive model was proposed to describe the mechanical behavior of welded bimrocks. On this basis, the relations between the dynamic elastic modulus and the physical parameters of bimrocks were established, which included macroscopic mechanical parameters and damage constitutive parameters. Consequently, a new technological process was proposed to provide quick identification of the mechanical properties of welded bimrocks. The results indicate that the dynamic elastic modulus is highly correlated with the rock block proportion (RBP) and uniaxial compression strength (UCS). It is an effective parameter to predict the strength of the bimrocks with high RBPs. Additionally, the proposed constitutive model, which is based on damage theory, can accurately simulate the strain softening behavior of the bimrocks. Combining the resonant frequency technology and the proposed constitutive model, the complete stress strain curve can be obtained in a rapid and accurate manner, which provides a further guarantee of the stability and safety of underground engineering.
Highlights
Block-in-matrix-rocks with high rock block proportions (RBPs) are considered problematic geological materials during engineering construction [1,2,3]
The results indicate that the dynamic elastic modulus is highly correlated with the rock block proportion (RBP) and uniaxial compression strength (UCS)
The other kind of crack appeared with a further increase in the RBP, which occurred along the interface between the soil and the rocks
Summary
Block-in-matrix-rocks (bimrocks) with high rock block proportions (RBPs) are considered problematic geological materials during engineering construction [1,2,3]. Et al [14] suggested the experimental data These tests confirmed that applying ultrasonic testing technology empirical equations to predict the strength of bimrocks, which depends on multiple input toparameters, study the properties bimrocks is feasible. It is an effective and feasible to study the mechanical properties of welded bimrocks through combining the traditional compression test and nondestructive testing techniques, such as ultrasonic testing technology and digital imaging technology [19,20,21,22,23,24]. Combined with the uniaxial compression test and damage constitutive theory, the internal relationships between the vibration response signal of welded bimrocks and their mechanical and constitutive parameters are established, which provides a new solution for fast discrimination of the mechanical properties of welded bimrocks at construction sites
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