The influence of cyclic loading-unloading rates on the uniaxial mechanical anisotropy of coal.
Duo Xu, Honghua Song, Like Zhao, Guoqing Tang, Shide Hu, Chenxi Duan, Yunting Song
Abstract
Open AccessIn this study, the influence of the loading-unloading rate on the uniaxial mechanical anisotropy of coal was investigated via uniaxial compressive tests, acoustic emission (AE) monitoring, digital image correlation (DIC), and a series of coal specimens with five anisotropy angles. The results illustrate that the uniaxial compressive stress (UCS) and the elastic modulus maintain a U-shaped anisotropic feature under different loading-unloading rates. The anisotropic feature of the UCS and the axial strain decreases, while the elastic modulus increases with the increasing loading-unloading rate. The correlation of the UCS, the loading-unloading rate, and the anisotropic angle of coal specimens can be described by a cosine function. The impact of bedding plane on the failure characteristics of coal is more significant at anisotropic angles of 0°, 22.5°, and 45°. Where the penetrating crack mainly propagates along the bedding plane. The increasing loading-unloading rates contribute to a more intact after-failure coal specimen, which makes the anisotropic failure feature of the coal specimen more notable. Meanwhile, the anisotropy of micro-failure characteristics revealed by the AE activity also increases with the loading-unloading rate. The cyclic loading-unloading process generates more damage as specimens with lower UCS value and loading-unloading rate. The damage variable caused by it exhibits a parabolic anisotropy feature at anisotropy angles 0º~90º, with greater values at anisotropy angles 22.5º and 45º. Meanwhile, this anisotropy feature changes to wave-type at the greater loading-unloading rate. In addition, the dissipated energy density generated during the cyclic loading-unloading process also shows a U-shaped anisotropy feature at anisotropy angles 0º~90º, with relatively lower values at 22.5º and 45º. It exhibits a positive exponential correlation with the UCS.