Abstract

Catastrophic landslides with basal shear zones usually involve a number of mechanisms that are poorly understood. One mechanism issue is the transition from slow sliding to fast movement, leading to catastrophic failure. We perform laboratory experiments on landslide shear-zone materials to investigate how rate effects influence the slow-to-fast transition. Two types of ring-shear tests are carried out, namely residual state shear tests involving a wide range of shear rates and residual state creep tests with the applied shear stress close to the residual strength. Our tests show that the shear-zone soil exhibits rate-weakening behaviour at low shear rates and rate-strengthening behaviour at high shear rates. These two opposite mechanisms are distinguished by a transition rate, which also regulates whether the creep motion falls into the viscous flow regime or returns to the slow sliding regime.

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