Abstract
Quaternary loess is widely distributed over the tertiary Hipparion red clay on the Loess Plateau of China. Large-scale loess landslides often occur along the weak contact interface between these two sediment materials. To investigate the failure mode and shear strength characteristics of the loess–Hipparion red clay contact interface, a series of shearing experiments were performed on interface specimens using purpose-built shear equipment. In this article, the relationship between shear strength and interface morphology is discussed, and an empirical shear model of the interface is proposed based on the experimental results and theoretical work. The results indicate that discontinuities between the loess and the Hipparion red clay reduce the shear strength of specimens significantly. The contribution of the contact interface to shear performance including failure mode, shear deformation, and shear strength varies with the interface morphology and the applied normal stress. With low interface roughness or normal stress, sliding failure is likely to occur. With increasing interface roughness and normal stress, the peak strength increases rapidly. With further increase in the interface roughness and normal stress, the increment of peak strength decreases gradually as the failure mode transitions from sliding mode to cutoff mode. A staged shear model that takes the failure mode into consideration is developed to express the non-linear change in the interface shear strength. The shear model’s capability is validated by comparing model estimates with experimental data. This work improves our understanding of shear mechanisms and the importance of considering the effects of interfacial properties in the mechanical behavior of contact interfaces.
Highlights
On China’s Loess Plateau, loess was deposited on the Hipparion red clay, forming a discontinuous weak interface
In this study, we investigate the shear characteristics of the loess–Hipparion red clay interface, the effect of the interface contact angle on failure mode, the shear deformation characteristics, and strength properties
The staged interfacial shear model is established according to the failure mode as follows: Sliding Mode When the shear failure of the interface specimen is the sliding mode, the shear strength consists of the friction strength and the cohesive strength between the sawtooth contact interface, and the friction strength is related to the sawtooth contact angle and normal stress
Summary
On China’s Loess Plateau, loess was deposited on the Hipparion red clay, forming a discontinuous weak interface. The interfacial shear strength was found to increase gradually with increasing interface roughness (Huck et al, 1974; Canakci et al, 2016), and failure modes, such as sliding along the interface, shear-off through the interface, and simultaneous sliding and shear-off, were found to vary with interface roughness (Feligha et al, 2016; Zhou et al, 2019) Based on these shear tests, researchers have informed attempts to establish theoretical and empirical shear strength criteria for the interface between geotechnical materials and structures (Gómez et al, 2003; Kosoglu et al, 2010; Kang and Liao, 2019; Kang et al, 2021). This is especially the case for the interface between loess and Hipparion red clay, the slip zone of many large loess landslides in the Loess Plateau To address this lacuna, in this study, we investigate the shear characteristics of the loess–Hipparion red clay interface, the effect of the interface contact angle on failure mode, the shear deformation characteristics, and strength properties. The accuracy of the proposed model is tested by comparing the experimental results with the model-derived values
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
