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http://dx.doi.org/10.7467/KSAE.2016.24.2.137

New Weight-reduction Design of the Fifth Wheel Coupler with a Trailer by Using Topology Optimization and Durability Tests  

Kim, Cheol (Department of Mechanical Engineering, Kyungpook National University)
Lee, Seung-Yoon (Department of Mechanical Engineering, Kyungpook National University)
Lee, Yong-Choon (R&D Center, Hwa-Shin Co. Ltd.)
Publication Information
Transactions of the Korean Society of Automotive Engineers / v.24, no.2, 2016 , pp. 137-143 More about this Journal
Abstract
The fifth wheel coupler is a heavy automotive coupling structure which connects a tractor and a trailer used for heavy-duty trucks widely. It is subjected to various loads simultaneously such as rolling, pitching and yawing loads as well as coupling frictional and impact loadings. Most of existing couplers have been overdesigned and, therefore, it is necessary to reduce the dead weight to increase the fuel efficiency. The topology optimization was applied in order to find conceptual layout designs which could show major load paths and ribs locations, and then the size structural optimization was performed in order to determine the heights and thicknesses of coupler ribs with the predetermined various loading conditions for the development of a new slim coupler with a minimum weight and high enough strength and stiffness. As the results of the topology optimum design, an efficient new coupling structure for truck trailers was designed. The weight of the new fifth wheel coupler was reduced by 4.9 %, compared with the existing one, even though all strength requirements were satisfied. The fatigue test of the new coupler was performed with cyclic vertical loads (+78.4 to +235.2 kN) and horizontal loads (-91.2 to +91.2 kN) simultaneously at 1 Hz and the life of 2,000,000 cycles were achieved without failure.
Keywords
Topology optimization; 5th wheel coupler; Durability test; Stress analysis; Load analysis;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
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