Effect of water saturation on dynamic behavior of sandstone after wetting-drying cycles: Fid-Bau Portal

Effect of water saturation on dynamic behavior of sandstone after wetting-drying cycles

Li, Hongru / Qiao, Yafei / He, Manchao / Shen, Rongxi / Gu, Zhoujie / Cheng, Tai / Xiao, Yingming / Tang, Jie

Abstract Fully understanding the influence of water on the rock materials' mechanical properties is of great significance to the safety design and evaluation in rock engineering. In this study, sandstone was pretreated with different wetting-drying cycles (0-15), and its pore characteristics were characterized by low-field nuclear magnetic resonance (LF-NMR) and scanning electron microscope (SEM) methods. Then, the split Hopkinson pressure bar (SHPB) tests with the same impact velocity were carried out in its dry and saturated states, respectively. The effects of water saturation on the dynamic behavior of sandstone under different porosity conditions and their mechanisms were emphasized. The results show that with the increase of cycle numbers, the porosity of sandstone increases, the dynamic strength and the total energy dissipation decreases. Moreover, the proportion of post-peak energy dissipation rises, and the degree of fragmentation intensifies. With the increase of porosity, the effect of water saturation on dynamic strength changes from enhancement to weakening. This may be related to the competition between the the Stefan effect and the contribution of pore water pressure. Finally, a dynamic damage constitutive model considering the coupling effect of the wetting-drying cycles and dynamic loads was established, and its effectiveness was verified.

Highlights • As the wetting-drying cycles increases, the porosity of the sandstone increases and its dynamic strength decreases. • The effect of water saturation on dynamic strength change from enhancement to weakening with increasing porosity. • A dynamic damage constitutive model considering porosity is established and its validity is verified.