Face mask chips-reinforced sands under monotonic and cyclic torsional shearing
Shao-Heng He, Zhen‐Yu Yin, Erdin Ibraim, Zhi Ding
Abstract
In an effort to enhance engineering infrastructure and reduce environmental waste, the use of COVID-19 face-mask chips (FMC) in sand reinforcement is experimentally explored through drained, hollow-cylinder, torsional shear tests, including monotonic stress paths with different fixed orientation of the principal stress axes and cyclic tests with traffic load and pure principal stress rotation. Fujian sand and Hong Kong completely decomposed granite sand were used. The monotonic test results indicate that both sands exhibit a strong strength anisotropy; however, although the addition of FMC increases the peak stress ratio to failure of the composites for all tests, the strength anisotropy trends with ασ are not changed. Results from X-ray computed tomography scanning analyses conducted on FMC-reinforced and unreinforced cylinder sand specimens supported the interpretation of experimental data. Furthermore, the inclusion of FMC induces increased plastic deformation under cyclic loads in all tests; however, the level of these plastic strains is dependent on sand type and stress level. It was also observed that both sands exhibit non-coaxial characteristics, but the presence of FMC inclusions does not change the non-coaxial trends observed for the pure sands.