岩土力学Issue(7):1943-1950,8.
黏弹性地基中PCC桩扭转振动响应解析方法研究
Analytic method of torsional vibration response of cast-in-place concrete large-diameter pipe pile in viscoelastic soil
摘要
Abstract
Considering the viscous damping of the soil and the soil-pile torsional coupled vibration, regarding the pile as a one-dimensional rod and the soil as three dimensional axisymmetric viscoelastic medium, the frequency-domain torsional vibration response of cast-in-place concrete large-diameter pipe pile (PCC pile)in viscoelastic soil is theoretically investigated. The analytical solution in frequency domain is obtained by Laplace transformation method and the method of separation of variables. The solution is compared with the solution of a solid pile and plane strain solution extended to pipe pile to verify its rationality. Moreover, by analyzing the effects of pile length and viscous damping coefficient of soil on the velocity admittance and complex dynamic stiffness, the regularity of variations of the torsional vibration characteristics with parameters is obtained. Analysis shows that the complex dynamic stiffness at the top of pile increases with the increase of viscous damping coefficient of outer soil and the oscillation amplitudes of the velocity admittance decrease; while the effect of viscous damping of inner soil on the complex dynamic stiffness and velocity admittance is little. The complex dynamic stiffness increases and the oscillation amplitudes of the velocity admittance decrease with the increase of the pile length. However, when the pile length increases to a critical length, the effect trends to vanish.关键词
PCC桩/扭转振动/解析解/复动刚度/黏弹性地基Key words
PCC pile/torsional vibration/analytical solution/complex dynamic stiffness/viscoelastic soil分类
建筑与水利引用本文复制引用
..黏弹性地基中PCC桩扭转振动响应解析方法研究[J].岩土力学,2013,(7):1943-1950,8.基金项目
国家自然科学基金高铁联合基金重点项目(No. U1134207);国家自然科学基金(No.51008115);国家杰出青年科学基金项目(No.50825901)。 (No. U1134207)
