Simulation of the tensile failure behaviour of transversally bedding layers using PFC2D

In this paper, the tensile failure behaviour of transversally bedding layers was numerically simulated by using particle flow code in two dimensions. Firstly, numerical model was calibrated by uniaxial, Brazilian and triaxial experimental results to ensure the conformity of the simulated numerical model\'s response. Secondly, 21 circular models with diameter of 54 mm were built. Each model contains two transversely bedding layers. The first bedding layer has low mechanical properties, less than mechanical properties of intact material, and second bedding layer has high mechanical properties, more than mechanical properties of intact material. The angle of first bedding layer, with weak mechanical properties, related to loading direction was 0o, 15o, 30o, 45o, 60o, 75o and 90o while the angle of second layer, with high mechanical properties, related to loading direction was 90o, 105o, 120o, 135o, 150o,160o and 180o. Is to be note that the angle between bedding layer was 90o in all bedding configurations. Also, three different pairs of the thickness was chosen in models; i.e., 5 mm/10 mm, 10 mm/10 mm and 20 mm/10 mm. The result shows that In all configurations, shear cracks develop between the weaker bedding layers. Shear cracks angel related to normal load change from 0o to 90o with increment of 15o. Numbers of shear cracks are constant by increasing the bedding thickness. It\'s to be note that in some configuration, tensile cracks develop through the intact area of material model. There is not any failure in direction of bedding plane interface with higher strength.