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Bending behaviour of rigid-flexible combined inflatable membrane structures for floating bridge modules

Yunling Ye, Jin Gan, Huabing Liu, Weiguo Wu, Lin Wang, Junyu Guo, He Li

2025Ocean Engineering18 citationsDOIOpen Access PDF

Abstract

This paper investigates the load-bearing characteristics of rigid-flexible combined inflatable floating bridge modules. A simplified numerical model incorporating air-membrane coupling is first developed and validated by experimental data. Accordingly, a numerical method is subsequently employed to analyse the structural behaviour of the floating bridge module, including load-deformation feature, failure modes, and the effects of key structural parameters on the structural behaviour. The results reveal an initial linear load-deformation followed by softening, leading to local buckling failures. The parametric study indicates that an increased deck plate thickness, deck height, and internal pressure effectively enhance the load-bearing capacity of the floating bridge module. An equivalent stiffness prediction model is constructed with a prediction error of 0.594 % against numerical results. Overall, this study advances the understanding of load-bearing characteristics for inflated rigid-flexible combined floating bridge modules.

Topics & Concepts

InflatableBendingStructural engineeringBridge (graph theory)Materials scienceMembraneComposite materialEngineeringChemistryInternal medicineBiochemistryMedicineStructural Analysis and Optimization