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An improved HSFR method for natural vibration analysis of an immersed cylinder pile with a tip mass

An improved HSFR method for natural vibration analysis of an immersed cylinder pile with a tip mass
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摘要 Immersed cylinder piles are usually modelled as immersed carrying a tip mass and rotary moment of inertia. In this paper, an immersed cylinder pile along transversal modes of vibration are of water and structural damping are included in the formulation. cantilever cylinder columns the equations of motion of developed. Compressibility Natural frequencies of the immersed pile are obtained from the developed equations using harmonic sweep frequency response analyses. The proposed method is applied to numerical examples, and the results obtained are shown satisfactory when compared to other numerical solutions in the literature, or to finite element solutions and experimental data. Immersed cylinder piles are usually modelled as immersed carrying a tip mass and rotary moment of inertia. In this paper, an immersed cylinder pile along transversal modes of vibration are of water and structural damping are included in the formulation. cantilever cylinder columns the equations of motion of developed. Compressibility Natural frequencies of the immersed pile are obtained from the developed equations using harmonic sweep frequency response analyses. The proposed method is applied to numerical examples, and the results obtained are shown satisfactory when compared to other numerical solutions in the literature, or to finite element solutions and experimental data.
出处 《Theoretical & Applied Mechanics Letters》 2012年第2期72-75,共4页 力学快报(英文版)
基金 supported by the Ministry of Science and Technology of China (SLDRCE09-B-08) the National Nature Science Foundation of China (50978194 and 90915011) Kwang-Hua Fund for College of Civil Engineering,Tongji University
关键词 vibration analysis cylinder pile fluid-structure interaction sweep frequency responsemethod tip mass and moment of inertia vibration analysis, cylinder pile, fluid-structure interaction, sweep frequency responsemethod, tip mass and moment of inertia
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