Title :
Axial response analysis of single pile based on SCPTU test
Author :
Yong-hong, Miao ; Guo-jun, Cai ; Song-yu, Liu ; Hai-feng, Zou
Abstract :
Analysis of single pile response is important for engineering design. Seismic cone penetration pore pressure (SCPTU) test can provide four parameters along the depth, i.e., cone tip resistance (qt), wall friction (fs), pore pressure (u2), shear wave velocity (Vs). Using the parameters due to SCPTU, pile axial load- displacement- pile capacity can be obtained effectively. Using the data of CPTU penetration test, pile base resistance and skin friction can be predicted. Moreover, by means of shear wave velocity, the initial stiffness of pile, vertical displacement and axial load transfer were evaluated. Finally, tests of PHC piles embedded in the interactive marine and terrestrial deposit soil and silty clay validate the accuracy of the proposed method.
Keywords :
clay; earthquake engineering; elasticity; foundations; friction; impact (mechanical); soil; walls; SCPTU Test; axial load transfer; axial response analysis; cone tip resistance; engineering design; initial stiffness; interactive marine soil; pile base resistance; pore pressure; seismic cone penetration pore pressure test; shear wave velocity; silty clay; single pile response; skin friction; terrestrial deposit soil; vertical displacement; wall friction; Friction; Presses; Resistance; Skin; Soil properties; Transportation; SCPTU (seismic cone penetration pore pressure); capacity; load transfer; pile; vertical displacement;
Conference_Titel :
Electric Technology and Civil Engineering (ICETCE), 2011 International Conference on
Conference_Location :
Lushan
Print_ISBN :
978-1-4577-0289-1
DOI :
10.1109/ICETCE.2011.5774424
