Through model tests based on digital image correlation technology and discrete element numerical simulation method(PFC),the influence of thread setting,the relative density of sand,loading conditions on the uplift bearing capacity,and deformation characteristics of the screw-shaft pile are studied.The test results are used to calibrate the micro parameters of the discrete element program.The simulation results are used to analyze the load sharing characteristics,the influence of pile type parameters on the bearing capacity and the sliding surface of the soil around the pile.The results show that:The uplift force-displacement curves of pile foundation present softening characteristics,and the 0.05D failure criterion is applicable to the determination of the ultimate bearing capacity of the uplift pile.The setting of the screw threads increases the bearing capacity of the pile by 37%,the load sharing ratio of the threaded section is close to 70%,and the shaft section is twice that of the compression condition.The uplift bearing capacity decreases with the increase of thread pitch.H/D=1.00 is a reasonable parameter under this condition.The improvement of the relative density of sand makes the uplift bearing capacity of screw-shaft pile and straight rod pile increase by 19.4%and 26%respectively,while the influence of displacement mode of soil around the uplift pile is limited.The maximum influence range of soil around the screw-shaft pile is about 4D,while that of straight rod pile is about 2D.
关键词
抗拔螺杆桩/模型试验/离散单元法/承载力/位移模式
Key words
uplift screw-shaft pile/model test/discrete element method/bearing capacity/displacement mode
维普
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