Modeling and Modal Analysis of the Whole Structure of PT7032 Tower Crane Based on Finite Element Method

Jing Fa Lei; Xue Hui Chen; Lei Huang; Sheng Lei; Cong Sheng Chen; Lei Shen

doi:10.4028/www.scientific.net/AMR.706-708.1433

Paper Titles

Kinematics Simulation and Experimental Study of CVT with Diclinic Cam Plate Synchronous Revolution and Internal Power Shunt
p.1413

Magnetic Spring and Experimental Research on its Stiffness Properties
p.1418

Micro-Vibration Control for Ultra-Precision Isolation Platform of Large Grating Ruling Engine
p.1423

Modal Analysis and Lightweight Design of High-Power Marine Gearbox Based on Topology Optimization
p.1428

Modeling and Modal Analysis of the Whole Structure of PT7032 Tower Crane Based on Finite Element Method
p.1433

Natural Vibration Analysis for Gun Using Rigid-Flexible Coupling Multi-Body Modeling Method
p.1437

Natural Vibration Analysis of High-Speed Railway Slab Tracks under Rail Longitudinal Force
p.1443

Numerical Analysis of the Flow in a Curved Duct
p.1450

Numerical Simulation of a Circumferential Cutting Warhead about Anti-Light Armor
p.1454

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 706-708Modeling and Modal Analysis of the Whole Structure...

Modeling and Modal Analysis of the Whole Structure of PT7032 Tower Crane Based on Finite Element Method

Abstract:

In this thesis, PT7032 tower crane was taken as the research object, and the modeling and modal analysis of the overall structure were carried out using Abaqus software. The low-order natural frequencies and main vibration modes of this tower crane were obtained based on the above modal analysis. The analysis results will prevent the tower crane from working on resonant region, and will make preparations for the following dynamics response analysis of the tower crane.

You might also be interested in these eBooks

Mechatronics and Intelligent Materials III

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 706-708)

Pages:

1433-1436

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.706-708.1433

Citation:

Cite this paper

Online since:

June 2013

Authors:

Jing Fa Lei, Xue Hui Chen, Lei Huang, Sheng Lei, Cong Sheng Chen, Lei Shen

Keywords:

Finite Element, Modal Analysis, Tower Crane, Whole Structure

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Hu Liu xian, Li Yi fan. Study on statics and modal analysis in tower crane [J]. Journal of Luoyang institute of science and technology (Natural Science Edition), 2010, (20)1: 35~39

Google Scholar

[2] Lei Jing fa, Chen Xue hui, etc. Stress analysis of the whole structure of tower crane based on finite element method [J]. Journal of Hubei university of technology, 2011, 26(4)：58~60

Google Scholar

[3] Zhang Ying long. Analysis of vibration modes in tower crane [J]. Hoisting and conveying machinery, 2004, 3:54~56

Google Scholar

[4] Zeng Pan. Finite element analysis and application [M]. Beijing: Tsinghua university Press, (2004)

Google Scholar

[5] Yang Hui yong, Yin Chen bo, etc. The static and modal analysis of tower crane's jib based on ANSYS [J]. Construction mechanization, 2010, 4:53 ~56

Google Scholar

[6] Ta Na, Rao Zhu shi, etc. Analysis of modeling and dynamic response of gantry crane [J]. Noise and vibration control, 2008, 4:6 ~8,12

Google Scholar

[7] Xue Ji zhong, Yi Chuan yun, etc. Three dimension finite element analysis of bridge-crane frame structure [J]. Machinery & Electronics, 2004, 8:12 ~15

Google Scholar