Affiliation:
1. Shijiazhuang Mechanical Engineering College
2. Institute of Mechanical Technology
Abstract
This document mainly studies the cross-section shape of the box-type telescopic boom. First, the basic structure of the telescopic boom was analyzed, and then, the finite element analysis of the quadrilateral and hexagonal telescopic booms were conducted based on ABAQUS with the same section height, width, thickness, as well as the same constraints and loads condition. The stress-strain diagram was obtained. Comparing to the quadrilateral boom, the hexagonal telescopic boom loads higher, weights lighter, and performs better.
Publisher
Trans Tech Publications, Ltd.
Reference10 articles.
1. C. Q. Zeng, Telescopic Crane Structure Optimization Design and Finite Element Analysis. Taiyuan University of Science and Technology, (2010).
2. D. K. Damian, and K. Jacek, Static and Dynamic Analysis of Telescopic Boom of Self-Propelled Tunneling Machine, Journal Of Theoretical And Applied Mechanics, vol. 50, pp.47-59, (2012).
3. H. F. Yan, W. P. Wang, Z. Wang, H. X. Zhang, H. Zhang, and X. P. An, Finite Element Analysis and Stress Testing for Telescopic Boom of Telehandler, Applied Mechanics and Materials, vol. 321-324, pp.1757-1760, (2013).
4. G. N. Xu, G. G. Gao, and Z. C. Guo, Analysis on Nonlinear Buckling Failure influence factors of Telescopic Boom System Based on Arc-length and FEM Method, Applied Mechanics and Materials, vol. 532, pp.291-296, (2014).
5. Z. Yan, Study for Hexagonal Telescopic Boom, Hoisting and Conveying Machinery, pp.2-7, (1985).
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2 articles.
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