Design of Arch and Transfer of Technology in Kintaikyo-Bridge

Tomioka, Sawako; Tomoda, Tomoo; Yoda, Teruhiko

doi:10.2749/222137815815773918

IABSE Conference, Nara 2015: Elegance in Structures 2015

DOI: 10.2749/222137815815773918

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Design of Arch and Transfer of Technology in Kintaikyo-Bridge

Sawako Tomioka

Tomoo Tomoda

Teruhiko Yoda³

Abstract: <p>Kintaikyo-Bridge is a very special wooden five-span bridge with three arches across the Nishiki River, the largest river of Yamaguchi Prefecture, Japan. The central wooden rib arch is very rare in the world. Its structure has become a landmark because of its elegant beauty and harmony with the beautiful views of the surrounding area. It attracts many tourists. Rebuilding was carried out many times since its inauguration in 1673. The latest rebuilding was made in 2004 which was about 50 years after its… Show more

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2021

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Rationality in pier geometry of Kintaikyo Bridge from viewpoint of river engineering

Sato

2021

Herit Sci

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The Kintaikyo Bridge, with its elegant wooden arches, has a unique pier shape and continues to be loved by residents and visitors alike. Although this bridge is an active footbridge and an important landscape element along with the Nishikigawa River and its river beach, the rationality or irrationality of the shape of its piers remains unknown. This paper is intended to clarify the river engineering characteristics of the piers for the first time by conducting 1/129 scale hydraulic model experiments. The shapes tested were a perfect spindle shape (which has been adopted as a common theory for many years) and a reconstructed current shape based on the spindle shape, and for comparison, an oval and a non-regular hexagon shape with the same width and area. The current shape, along with the spindle shape, suppressed the water level rise around the pier more than the others. As for the riverbed fluctuation, the current shape slightly increased the scour more than the others, but it also maximized the sedimentation around the scoured part. In other words, the current shape has the potential to facilitate the procurement of sediment for post-flood restoration. In addition, the current shape overwhelmingly reduced the statistical dispersion associated with the experiment, suggesting that it stabilizes the trend of riverbed fluctuation even during actual floods. Based on the results, the future conservation of the Kintaikyo Bridge was also discussed.

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Rationality in pier geometry of Kintaikyo Bridge from viewpoint of river engineering

Sato

2021

Herit Sci

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Design of Arch and Transfer of Technology in Kintaikyo-Bridge

Cited by 1 publication

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Rationality in pier geometry of Kintaikyo Bridge from viewpoint of river engineering

Rationality in pier geometry of Kintaikyo Bridge from viewpoint of river engineering

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