A numerical procedure for reliability analysis of earth slope based on advanced first-order second-moment method is presented,while soil properties and pore water pressure may be considered as random variables.The fac...A numerical procedure for reliability analysis of earth slope based on advanced first-order second-moment method is presented,while soil properties and pore water pressure may be considered as random variables.The factor of safety and performance function is formulated utilizing a new approach of the Morgenstern and Price method.To evaluate the minimum reliability index defined by Hasofer and Lind and corresponding critical probabilistic slip surface,a hybrid algorithm combining chaotic particle swarm optimization and harmony search algorithm called CPSOHS is presented.The comparison of the results of the presented method,standard particle swarm optimization,and selected other methods employed in previous studies demonstrates the superior successful functioning of the new method by evaluating lower values of reliability index and factor of safety.Moreover,the presented procedure is applied for sensitivity analysis and the obtained results show the influence of soil strength parameters and probability distribution types of random variables on the reliability index of slopes.展开更多
A two-dimensional(2D) finite element analysis was carried out to assess the time-dependent behavior of single vertical pile embedded in elasto-plastic soil.The finite element analyses were carried out using the linear...A two-dimensional(2D) finite element analysis was carried out to assess the time-dependent behavior of single vertical pile embedded in elasto-plastic soil.The finite element analyses were carried out using the linear elastic model for the structure of the pile,while the Mohr-Coulomb model was used for representing the soil behavior surrounding the pile.The study includes cohesionless and cohesive soil to assess the lateral response of pile in the two types of soil.The whole geotechnical model is suitable for problem of piles to determine the design quantities such as lateral deformation,lateral soil stress and its variation with time.The model is verified based on the results of published cases and there is good comparison between the results of published case and the present simulation model.It is found that,the pile in cohesionless soil has more resistance in the rapid loading and less one in the long term loading.On the other hand,the pile in cohesive soil shows opposite behavior.展开更多
基金supported by the Ministry of Higher Education, Malaysia (Grant No.UKM-AP-PLW-04-2009/2)
文摘A numerical procedure for reliability analysis of earth slope based on advanced first-order second-moment method is presented,while soil properties and pore water pressure may be considered as random variables.The factor of safety and performance function is formulated utilizing a new approach of the Morgenstern and Price method.To evaluate the minimum reliability index defined by Hasofer and Lind and corresponding critical probabilistic slip surface,a hybrid algorithm combining chaotic particle swarm optimization and harmony search algorithm called CPSOHS is presented.The comparison of the results of the presented method,standard particle swarm optimization,and selected other methods employed in previous studies demonstrates the superior successful functioning of the new method by evaluating lower values of reliability index and factor of safety.Moreover,the presented procedure is applied for sensitivity analysis and the obtained results show the influence of soil strength parameters and probability distribution types of random variables on the reliability index of slopes.
文摘A two-dimensional(2D) finite element analysis was carried out to assess the time-dependent behavior of single vertical pile embedded in elasto-plastic soil.The finite element analyses were carried out using the linear elastic model for the structure of the pile,while the Mohr-Coulomb model was used for representing the soil behavior surrounding the pile.The study includes cohesionless and cohesive soil to assess the lateral response of pile in the two types of soil.The whole geotechnical model is suitable for problem of piles to determine the design quantities such as lateral deformation,lateral soil stress and its variation with time.The model is verified based on the results of published cases and there is good comparison between the results of published case and the present simulation model.It is found that,the pile in cohesionless soil has more resistance in the rapid loading and less one in the long term loading.On the other hand,the pile in cohesive soil shows opposite behavior.