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http://dx.doi.org/10.9712/KASS.2020.20.4.83

A Study on the Optimal Design of TMD According to the Shape of Large Spatial Structures Part 2  

Bae, Seok-Hong (Dept. of Architecture, Yeungnam University)
Lee, Young-Rak (Dept. of Architecture, Yeungnam University)
Kim, Hyun-Su (School of Architecture, Sunmoon University)
Kang, Joo-Won (School of Architecture, Yeungnam University)
Publication Information
Journal of Korean Association for Spatial Structures / v.20, no.4, 2020 , pp. 83-91 More about this Journal
Abstract
In this study, a tuned mass damper(TMD) was installed to control the displacement response to earthquakes by generalizing to six analysis models according to the shape of the upper structure based on the case of various large spatial structures around the world. The six analysis models are ribbed type, latticed type, elliptical type, gable type, barrel type, and stadium type composed of 3D arch trusses. In this paper, ribbed type, latticed type and elliptical type were analyzed. The mass of each TMD was set to 1% of the total structural mass. Result of analyzing the optimal number and position of the analysis model, the displacement response control was the most excellent in the model with 6 and 8 TMDs, and the displacement response decreased in most cases. The displacement response control was better with installing the TMD at the edge point than focusing the TMD at the center of the analysis model. However, when 10 or more TMDs are installed or concentrated in the center, large loads intensively act on the structure, resulting in increased displacement. Therefore, although it is slightly different depending on the shape, it is judged that the displacement response control is the best to install 6 and 8 TMDs at the close to the edge point.
Keywords
Large spatial structure; Ribbed dome; Latticed dome; Elliptical dome; Tuned mass damper; Displacement response;
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