Browse > Article
http://dx.doi.org/10.5000/EESK.2022.26.6.219

Investigation of Seismic Responses of Single- and Bi-Directional Traffic Light Poles  

Kim, Taehyeon (Department of Civil Engineering, Jeonbuk National University)
Hong, Sanghyun (R&D Department, SD E&C Co. Ltd.)
Oh, Jongwon (Civil Engineering Division, Lotte E&C)
Roh, Hwasung (Department of Civil Engineering and Research Institute for Disaster Prevention, Jeonbuk National University)
Publication Information
Journal of the Earthquake Engineering Society of Korea / v.26, no.6, 2022 , pp. 219-226 More about this Journal
Abstract
The seismic responses of traffic light poles are investigated using a finite element analysis. Among the traffic light poles, single- and bi-directional traffic light poles are considered since such poles are frequently installed on vehicle roads. For a more detailed investigation, three different lengths of the mast arm are considered for each directional pole. For a time-history analysis, six actual and two artificial earthquakes are considered and applied to each direction of the poles (x and y) to investigate which direction input provides more significant responses due to the unsymmetrical structural shape. Herein, the x and y directions are respectively parallel and perpendicular based on the single mast pole case. From the analysis results, the average maximum displacement response is developed with the x-direction input case for both types of light poles. Also, the bi-directional traffic light poles show a 13% larger response than the single-directional traffic light poles. Even though the y-direction input case produces a smaller response, the response difference between the single- and bi-directional light poles considerably increases by about 60%. The average maximum acceleration responses are almost similar for both types of light poles.
Keywords
Traffic light poles; Time-history analysis; Seismic responses; Finite element model;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Kim JH, Han SY, Hong SM, Park MH. A Study on Seismic Design Code of Cable- railway Culumns. Proceedings of the 2008 Fall Conference of the Korean Society for Railway. 2008;13:1018-1023.
2 Kang SJ. Structural Analysis of Wireless Traffic Signal Using Finite Element Method. Journal of the Korea Academia-Industrial Cooperation Society. 2013;14(11):5334-5337.   DOI
3 Kyle TW, John BM, Stefan H. Damage Avoidance Solution to Mitigate Wind-Induced Fatigue in Steel Traffic Support Structures. Journal of Constructional Steel Research. 2007;138:298-307.
4 Luyu L, Gangbing S, Mithun S, Mo YL. Vibration Control of Traffic Signal Pole Using a Pounding Tuned Mass Damper with Viscoelastic materials: Experimental Verification. Journal of vibration and Control. 2005;21(4):670-675.
5 Byong JC, Song IH. Seismic Behavior of High-rise Steel Momentresisting Frames with Vertical Mass Irregularity. Earthquake Engineering Society of Korea. 2004;8(1):1-15.
6 Korea Road Traffic Facility Industry Cooperative. Integrated Traffic Signal Structure. c2018.
7 Zhu TJ, Heidebrecht AC, Tso WK. Effect of Peak Ground Acceleration to Velocity Ratio on Ductility Demand of Inelastic Systems. Earthquake Engineering and Structural Dynamic. 1998;16:63-79.
8 Sameh S, George AS. Dynamic Behavior and Seismic Response of FRP Light Poles in High Seismic Zones. Proceedings of 6th International Conference on FRP Composites in Civil Engineering. 2012: Rome, Itlay.
9 Puckett JA, Hamilton HR, Riggs GS. Increased Damping in Cantilevered Traffic Signal Structures. Journal of Structural Engineering, 2000;126(4):530-537.   DOI
10 Puckett JA, Mcmanus PS, Hamilton HR. Damping in Cantilevered Traffic Signal Structures under Forced Vibration. Journal of Structural Engineering. 2003;129(3):373-382.   DOI
11 Korean National Police Agency. Traffic Signal Installation Manual. c2009.
12 American Association of Highway and Transportation Officials (AASHTO). AASHTO Standard Specifications for Structural Supports for Highway Signs. Luminaires and Traffic Signals. c2009.
13 Fatma NK, Senay U, Gokhan O, Temel T. Estimation of Damping Ratios of Steel Structures by Operational Modal Analysis Method. Journal of Constructional Steel Research. 2015;112:61-68.   DOI
14 Ji J, Elnashai AS, Kuchma D. Seismic Fragility Relationships of Reinforced Concrete High-Rise Buildings. The structural Design of Tall and Special Buildings. 2009;18(3):259-277.   DOI