Improvements on the structural response control of unconventional cable-stayed bridges by nonlinear analysis modelling
Abstract: An unusual cablestayed bridgewiththe cable stays placed below the deck and having polygonal layout due to deviation by means of struts is named under-deck cable-stayed (UDCS) bridge. UDCS bridges usually have significant nonlinear behaviour due to direct anchoring of cablestaying system into the deck. These nonlinearities mostly depend on dimensionless slenderness parameter. Designing UDCS structures for the better cross-sections utilization the prestressing of cable stays is widely used. This paper presents a new perspective for structural response control by means of eccentric anchoring of cable-staying system. Numerical examples emphasises the efficiency of the proposed computational technique. Moreover, the comparison analysis carried out considering structural behaviour of the UDCS structure both as linear and nonlinear. On the basis of such comparative studies, several conclusions are drawn concerning the safety and accuracy of the structural behaviour estimates yielded by nonlinear analysis and, in particular, when accounting for all initial imperfections.
Keywords: UDCS bridge, nonlinear analysis, imperfections, structural response control, rational eccentricity, rational moment, generalized imperfections factor, simple-span system, beam-column.
Pages: 59-66.
For citation: Misiunaite, E.; Juozapaitis, A.; Merkevicius, T. Improvements on the structural response control of unconventional cable-stayed bridges by nonlinear analysis modelling. – Text : electronic. – In: Metal Constructions. – 2013. – Vol. 19, N 1. – Р. 59-66. – URL: https://donnasa.ru/publish_house/journals/mk/2013-1/06_misyunajte_yuozapajtis_merkevichyus.pdf (date of access: 24.11.2024). – ISSN 1993-3517. (in Russian)
Vol. 19, N 1 (2013)
Journal: Metal Constructions
Publish house: Donbas National Academy of Civil Engineering and Architecture
Journal: Metal Constructions
Publish house: Donbas National Academy of Civil Engineering and Architecture