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Article type: Research Article
Authors: Rele, Rajesh R.a; * | Balmukund, Ranjana | Mitoulis, Stergios A.b | Bhattacharya, Subhamoyb
Affiliations: [a] R. R Consulting Engineers, Mumbai, India | [b] University of Surrey, Guildford, UK
Correspondence: [*] Corresponding author. Rajesh R. Rele, R. R Consulting Engineers, Mumbai, India. E-mail: rajesh_rele@rediffmail.com.
Abstract: The conventional design philosophy of bridges allows damage in the pier through yielding. A fuse-like action is achieved if the bridge piers are designed to develop substantial inelastic deformations when subjected to earthquake excitations. Such a design can avoid collapse of the bridge but not damage. The damage is the plastic hinge formation formed at location of maximum moments and stresses that can lead to permanent lateral displacement which can impair traffic flow and cause time consuming repairs. Rocking can act as a form of isolation by means of foundation uplifting which act as a mechanical fuse, limiting the forces transferred to the base of the structure. In this context, this paper proposes a novel resilient controlled rocking bridge pier foundation, which uses elastomeric pads incorporated beneath the footing of the bridge piers and external restrainer in the form of shape memory alloy bar (SMA). The rocking mechanism is achieved by restricting the horizontal movement of footing by providing stoppers at all sides of footing. The pads are designed to remain elastic without allowing their shearing. The pier, the footing and the elastomeric pads are assumed to be supported on firm rigid concrete sub base resting on hard rock. By performing nonlinear dynamic time history analysis in the traffic direction of the bridge, the proposed pier with the novel resilient foundation is compared against a fixed-based pier and classical rocking pier (CC). The proposed pier rocking on elastomeric pads and external restrainer (CP+SMA) has good re-centering capability during earthquakes with negligible residual drift and footing uplift. In this new rocking isolation technique, the forces in the piers are also reduced and thus leading to reduced construction cost with enhanced post-earthquake serviceability.
Keywords: Bridges, pier, rocking isolation, stoppers, elastomeric pad, resilient, shape memory alloy bar
DOI: 10.3233/BRS-200174
Journal: Bridge Structures, vol. 16, no. 2-3, pp. 85-103, 2020
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