Vibration of a Segmented Rod

C. Y. Wang; H. Zhang; C. M. Wang

doi:10.1142/S021945542071011X

Vibration of a Segmented Rod

C. Y. Wang, H. Zhang^*, C. M. Wang

^*Corresponding author for this work

School of Mechatronical Engineering

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

This paper presents the governing equation of motion, boundary conditions and exact vibration frequencies of a segmented rod where the segments are connected by hinges with elastic rotational springs of constant stiffness. The mass of each segment is assumed to be evenly distributed along the length of the rod. Another discrete model called Hencky bar-chain model (short for HBM; which is equivalent to the finite difference model for discretizing continuous rod) assumes the rod mass to be lumped at the ends instead and a different set of boundary conditions are adopted clamped end. The vibration results of a clamped-clamped segment rod are compared with those of the HBM. It is shown that the HBM underestimates the vibration frequencies when compared to the segmented rod model for a finite number of segments while both models furnish vibration solutions that converge to the solutions of Euler beam for infinitely large number of segments.

Original language	English
Article number	2071011
Journal	International Journal of Structural Stability and Dynamics
Volume	20
Issue number	14
DOIs	https://doi.org/10.1142/S021945542071011X
Publication status	Published - Dec 2020

Keywords

Hencky bar-chain model
Segmented rod
free vibration
frequencies

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title = "Vibration of a Segmented Rod",

abstract = "This paper presents the governing equation of motion, boundary conditions and exact vibration frequencies of a segmented rod where the segments are connected by hinges with elastic rotational springs of constant stiffness. The mass of each segment is assumed to be evenly distributed along the length of the rod. Another discrete model called Hencky bar-chain model (short for HBM; which is equivalent to the finite difference model for discretizing continuous rod) assumes the rod mass to be lumped at the ends instead and a different set of boundary conditions are adopted clamped end. The vibration results of a clamped-clamped segment rod are compared with those of the HBM. It is shown that the HBM underestimates the vibration frequencies when compared to the segmented rod model for a finite number of segments while both models furnish vibration solutions that converge to the solutions of Euler beam for infinitely large number of segments.",

keywords = "Hencky bar-chain model, Segmented rod, free vibration, frequencies",

author = "Wang, {C. Y.} and H. Zhang and Wang, {C. M.}",

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T1 - Vibration of a Segmented Rod

AU - Wang, C. Y.

AU - Zhang, H.

AU - Wang, C. M.

PY - 2020/12

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AB - This paper presents the governing equation of motion, boundary conditions and exact vibration frequencies of a segmented rod where the segments are connected by hinges with elastic rotational springs of constant stiffness. The mass of each segment is assumed to be evenly distributed along the length of the rod. Another discrete model called Hencky bar-chain model (short for HBM; which is equivalent to the finite difference model for discretizing continuous rod) assumes the rod mass to be lumped at the ends instead and a different set of boundary conditions are adopted clamped end. The vibration results of a clamped-clamped segment rod are compared with those of the HBM. It is shown that the HBM underestimates the vibration frequencies when compared to the segmented rod model for a finite number of segments while both models furnish vibration solutions that converge to the solutions of Euler beam for infinitely large number of segments.

KW - Hencky bar-chain model

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KW - frequencies

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JO - International Journal of Structural Stability and Dynamics

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Vibration of a Segmented Rod

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Keywords

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