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Simplified Calculation Approach for Settlement of Single Pile and Pile Groups
This paper proposes a simple analytical approach for nonlinear analyses of the load-displacement response of single piles and pile groups. Two models were adopted in the proposed approach. One model is based on a hyperbolic nonlinear relationship to simulate the behavior between unit skin friction and pile displacement developed along the pile-soil interface. The other model uses a bilinear hardening model to simulate the load-settlement response developed at the pile base. Based on the two proposed models, a highly effective iterative computer program was developed for nonlinear analysis of the load-settlement behavior of a single pile. Concerning analysis of the response of pile groups, the interaction between two piles was assumed to be composed of two aspects: interaction between pile shafts and interaction between pile bases. Based on this assumption, a reduction coefficient was introduced into the discussion of pile-pile interaction to account for the reinforcing effect between piles. Comparisons of the load-settlement response for three well-instrumented tests were given to demonstrate the effectiveness and accuracy of the proposed simple method.
Simplified Calculation Approach for Settlement of Single Pile and Pile Groups
This paper proposes a simple analytical approach for nonlinear analyses of the load-displacement response of single piles and pile groups. Two models were adopted in the proposed approach. One model is based on a hyperbolic nonlinear relationship to simulate the behavior between unit skin friction and pile displacement developed along the pile-soil interface. The other model uses a bilinear hardening model to simulate the load-settlement response developed at the pile base. Based on the two proposed models, a highly effective iterative computer program was developed for nonlinear analysis of the load-settlement behavior of a single pile. Concerning analysis of the response of pile groups, the interaction between two piles was assumed to be composed of two aspects: interaction between pile shafts and interaction between pile bases. Based on this assumption, a reduction coefficient was introduced into the discussion of pile-pile interaction to account for the reinforcing effect between piles. Comparisons of the load-settlement response for three well-instrumented tests were given to demonstrate the effectiveness and accuracy of the proposed simple method.
Simplified Calculation Approach for Settlement of Single Pile and Pile Groups
Zhang, Qian-qing (author) / Zhang, Zhong-miao (author)
Journal of Computing in Civil Engineering ; 26 ; 750-758
2012-10-15
92012-01-01 pages
Article (Journal)
Electronic Resource
English
Simplified Calculation Approach for Settlement of Single Pile and Pile Groups
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