Structural Improvement in Crane Boom Rest
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Published:2024-08-26
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Volume:
Page:578-585
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ISSN:2456-2165
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Container-title:International Journal of Innovative Science and Research Technology (IJISRT)
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language:en
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Short-container-title:International Journal of Innovative Science and Research Technology (IJISRT)
Author:
Dharan CA Thulasi,Vadivoo U Sudalai,Hussain Basith SA Mohammed,R Pathmarajan,Ganesh P
Abstract
Crane boom rests are critical components that endure both static and dynamic loads, leading to deformation and a shortened lifespan. This paper addresses these issues by proposing a redesigned model with enhanced stiffness and load-bearing capacity. The new design incorporates gussets and Styrene-Butadiene Rubber (SBR) sheets. A series of trials were conducted to analyze various stiffener configurations, with results showing a significant reduction in deformation. The optimal configuration, consisting of three L-shaped stiffeners placed at specific intervals, reduced deformation from 17.2 mm to 2.2 mm. Additionally , the integration of SBR rubber sheets further minimized deformation to 0.15 mm. These modifications demonstrate the effectiveness of the proposed improvements in enhancing the durability and performance of crane boom rests. The findings provide a robust solution for extending the operational life of crane boom rests under dynamic loading conditions. Future research can explore different rubber materials and stiffener designs to further enhance structural integrity and load-bearing capacity.
Publisher
International Journal of Innovative Science and Research Technology
Reference6 articles.
1. Liao, X., Sun, X. and Wang, H., 2021. Modeling and dynamic analysis of hydraulic damping rubber mount for cab under larger amplitude excitation. Journal of Vibroengineering, 23(3), pp.542-558. 2. Yoon, B., Kim, J.Y., Hong, U., Oh, M.K., Kim, M., Han, S.B., Nam, J.D. and Suhr, J., 2020. Dynamic viscoelasticity of silica-filled styrene-butadiene rubber/polybutadiene rubber (SBR/BR) elastomer composites. Composites Part B: Engineering, 187, p.107865. 3. Mohebi, B., Asadi, N. and Kazemi, F., 2019. Effects of using gusset plate stiffeners on the seismic performance of concentrically braced frame. International Journal of Civil and Environmental Engineering, 13(12), pp.723-729. 4. Lin, P.C., Tsai, K.C., Wu, A.C. and Chuang, M.C., 2014. Seismic design and test of gusset connections for buckling‐restrained braced frames. Earthquake engineering & structural dynamics, 43(4), pp.565-587. 5. Hadianfard, M.A., Khakzad, A.R. and Vaghefi, M., 2015. Analysis of the effect of stiffener on the buckling capacity and non-elastic behavior of bracing gusset plates. Scientia Iranica, 22(4), pp.1449-1456.
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