Kijang Han scite author profile

A stress ribbon pedestrian bridge is the structure in which the axial force of prestressed deck, which is developed by introducing prestressed force into the thin deck with the very low value of span to deck-depth ratio which is installed on bearing cables with the specified sag, resists most of external loadings. Since the design of stress ribbon pedestrian bridges should be conducted by assuming the cross-section of deck, the area of bearing cables and post-tensioning cables, and the prestressed force of post-tensioning cables, it requires much more iterative processes than the design of general bridges. In this research, to minimize such iteration processes, regression equations which can reasonably assume the area of bearing cables and post-tensioning cables, and the prestressed force of post-tensioning cables, are suggested for the bridge length of 80m with the sag-span ratios of 1/30, 1/40, and 1/50.

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Design of high-tension elastic cable barriers preventing rollover and climbing-over of various vehicles with high impact severity

Han¹,

Park²,

Choi³

et al. 2022

International Journal of Crashworthiness

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Long-span semi-rigid cable barriers designed for high-impact severity satisfying the small car impact speed of 160 km/h

Kim

Han

et al. 2019

International Journal of Crashworthiness

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Kijang Han

Efficient assumption of design variables for stress ribbon footbridges

Development of a Semi-rigid Barrier Satisfying a Small Car Impact Speed of 130 km/h and a High Impact Severity of 272 kJ

Design Procedure of Stress Ribbon Pedestrian Bridges

Design of high-tension elastic cable barriers preventing rollover and climbing-over of various vehicles with high impact severity

Long-span semi-rigid cable barriers designed for high-impact severity satisfying the small car impact speed of 160 km/h

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