الفهرس | Only 14 pages are availabe for public view |
Abstract This thesis presents the results of laboratory and numerical models to study the behavior of shallow footings resting on anchored geosynthetic reinforced dense soil overlying loose. Laboratory model tests are performed to study the effect of reinforcement length, reinforcement depth, number of layers, and anchorage condition on the performance of a strip footing on geosynthetic reinforced soil. Finite element verification is performed using Plaxis 2D and an additional parametric study is performed to numerically investigate the effect of reinforcement length, deadman height, deadman width, and geosynthetic stiffness for different anchored geogrid configurations. An analytical method is developed to calculate the tensile forces in the reinforcement and ultimate bearing capacity.The pullout resistance of the geogrid significantly increases when anchoring the edges due to the development of passive resistance on the deadman resulting in an increase in bearing capacity. Uniform strains are generated along anchored reinforcement compared to the bell-shaped strain curve for conventional reinforcement. The optimum reinforcement length is six times the footing width for conventional reinforcement, on the other hand, the optimum reinforcement length is equal to footing width plus reinforcement depth for anchored reinforcement |