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Title |
Proposal of a New Type of 4-Lane Soundproof Tunnel Girder and Structural Performance Evaluation
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Authors |
고원희(Won-Hui Goh) ; 김민재(Min-Jae Kim) ; 마천(Chuan Ma) ; 강덕만(Duck-Man Kang) ; 지광습(Goang-Suep Zi) |
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DOI |
https://doi.org/10.11112/jksmi.2021.25.5.24 |
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Abstract |
The soundproof tunnels have been generally designed with H-beam girders, and the high weight of H-beam may cause the excessive design of the substructure. To solve this problem, this paper proposes a new soundproof tunnel girder design composed of pipes and discontinuous plates. First, the structural behavior of the straight girder according to the design parameters was examined through finite element analysis. The arrangement and shape of the plates were determined as the design parameter, to obtain the optimal design of girder. After then, the structural behavior and buckling stability of the arched girder were subsequently evaluated. As a result of the parameter analysis, it was confirmed that the axial force acting on the girder increased and the moment decreased as the ratio of unsupported sections decreased or the number of supporting plates increased. The stress concentration on the pipe member was relieved by increasing the long axis length of the elliptical plate. Arched girder analysis showed that the structural efficiency increase as the long axis of elliptical plate increase. As a result of the buckling evaluation, the buckling threshold load of the three connected girders was about 3.7 times higher than the design load. Consequently, it was confirmed that the proposed soundproof tunnel structure design satisfies both light weight and structural safety.
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