Shaking Table Test to Underground Structures in Layered Foundation

Wei Feng Sun; Li Ping Jing; Yan Zou; Ning Bo Yang; Yong Qiang Li

doi:10.4028/www.scientific.net/AMM.353-356.1461

Paper Titles

Discussion for Displacement Control Criteria of Soft Rock Tunnel in the Seismic Area
p.1440

Discussion of Tunnel Displacement Control Reference Group the Relevance of Factors for Earthquake Zone
p.1446

Stochastic Prediction for Frost Heave Effect of a Subway Tunnel
p.1451

Study on the Human Behavior in Metro Fire
p.1456

Shaking Table Test to Underground Structures in Layered Foundation
p.1461

Study on the Influence of Pit Excavation on the Stability of Underground Openings Using Different Models
p.1466

Numerical Simulation Method of Safe Distance between Concealed Karst Cave and Tunnel Based on Energy Catastrophe
p.1470

Breakage Probability Calculation of Shield Tunnel under the Effect of Foundation Pit Excavation
p.1475

Deformation Characteristics Research on Gravel Bed for Deep Buried Immerse Tunnel
p.1480

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 353-356Shaking Table Test to Underground Structures in...

Shaking Table Test to Underground Structures in Layered Foundation

Abstract:

A three-story underground structure shaking table test had been carried on to study the earthquake damage mechanism of underground structure in layered foundation. The test model was similar to typical subway station according to a certain similarity ratio, and the soils were disturbed sandy soil and silty clay dug from the site of Harbin subway. Shaking table tests to this typical model in silty clay and alternating layers of clay and sand were performed to reveal the effect of different layered soils. Results show that the sandy soil layer can reduce the damage of the soil and underground structure, the damage of underground structure is mainly controlled by displacement of the surrounding soil, and the response of shallow buried underground structure is larger than deep buried.