Vibration Analysis and Simulation of Mast Section of Hoist

Ji Man Luo; Yang Jiang; Zhi Hui Xing

doi:10.4028/www.scientific.net/AMR.567.3

Paper Titles

Preface

Vibration Analysis and Simulation of Mast Section of Hoist
p.3

Cleaness of the First Pipeline Steel Slab along with Casting Direction
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Microstructure and Properties of In Situ Fabricated Al-5wt.%Si-Al₂O₃ Composites
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Mössbauer and Magnetic Property Study on Cyano-Bridged Complex [Gu(en)_x]_yM_A[Fe(CN)₆]_z·nH₂O(M_A=K⁺)
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Synthesis of ZnO Nanoparticle by Solid State Reaction and its Influence on Zinc Electrode
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Microstructure Evolution of Ti-9.2Mo-2Fe Alloy
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A Comparative Study of SHS Synthesis of TiB₂ Cermets Powder by Magnesium Reduction and Aluminothermy Reduction
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Mechanical Characterization of Ti-Mo-Fe Titanium Alloy
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 567Vibration Analysis and Simulation of Mast Section...

Vibration Analysis and Simulation of Mast Section of Hoist

Abstract:

In order to avoid the damage of structure caused by the vibration, the natural frequency and vibration mode figure of the stiffness characteristics of the hoist’s structure should be analyzed. Modal analysis method is presented for solving above problem, and the first 6 order natural frequencies in different working conditions have been calculated in this paper. Vibration mode figure of structure system have been simulated corresponding to the first 6 order natural frequencies based on ANSYS. It is shows that the external excitation force have a great influence on the top of the free end when the cage moves to a different location. So, in the actual construction, the stiffness of top free ends connected tie-in device should be strengthened, therefore the system stability will be improved.

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Periodical:

Advanced Materials Research (Volume 567)

Pages:

3-9

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.567.3

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Online since:

September 2012

Authors:

Ji Man Luo, Yang Jiang, Zhi Hui Xing

Keywords:

Hoist, Modal Analysis, Natural Frequency, Vibration, Vibration Modes

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