Abstract
A series of direct shear tests using a large-scale constant-normal-stiffness direct-shear testing system was conducted to study the factors that influence the mechanical characteristics of a pile–soil interface in clay soil. Interfaces of different roughness (R = 0, 2, 4, and 6 mm) were tested in clay soil with four different water contents with four normal stresses under different shear rates during shearing. Results for the interfacial shear behavior are presented as shear-stress–shear-strain curves, shear strength, and parameters. The results show that (i) the higher the roughness, the higher the shear strength of the pile–soil interface.The larger the normal stress, the smaller the roughness effect on the shear strength and parameters of the pile-soil interface; and (ii) the higher the water content of the clay soil, the lower the shear strength of the pile–soil interface, with maximum cohesion at a water content of 25%. The main influence that increasing the water content has on the shear strength of the pile–soil interface is changing the coherence, while the shear rate in this test range has less effect on the shear strength of the pile–soil interface. Overall, the mechanical characteristics of the pile–soil interface are influenced by roughness, water content, and shear rate, and close attention should be paid to those three factors when analyzing test results.
Highlights
Pile–soil interaction is a key research topic when considering how soil and structures interact
Water content, and shear rate influence the shear strength and parameters of a pile–soil interface (PSI) in cohesive soil, the present author used a large-scale constant-stiffness direct-shear instrument to study the contact between cohesive soil and concrete for (i) four different roughness grades of the contact surface, (ii) four different water contents, and (iii) four different normal stresses and shear rates
Direct shear tests were carried out on soil samples with different water content under the conditions of different roughness and shear rate, and the shear displacement was controlled at 40 mm to study the mechanical properties of the PSI in viscous soil
Summary
Pile–soil interaction is a key research topic when considering how soil and structures interact. Water content, and shear rate influence the shear strength and parameters of a PSI in cohesive soil, the present author used a large-scale constant-stiffness direct-shear instrument to study the contact between cohesive soil and concrete for (i) four different roughness grades of the contact surface, (ii) four different water contents, and (iii) four different normal stresses and shear rates. A concrete block was placed in the lower box, and the upper box was filled with clay soil after installing a baffle so as to simulate the shear of a PSI in actual engineering. Direct shear tests were carried out on soil samples with different water content under the conditions of different roughness and shear rate, and the shear displacement was controlled at 40 mm to study the mechanical properties of the PSI in viscous soil.
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