Nguyen, X.D. and Guizani, L. (2021) Analytical and numerical investigation of natural rubber bearings incorporating U-shaped dampers behaviour for seismic isolation. Engineering Structures, 243: 112647. ISSN 1410296
Analytical and numerical investigation of natural rubber bearings incorporating U-shaped dampers behaviour for seismic isolation.pdf
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Abstract
Although Natural Rubber Bearings (NRBs) constitute a reliable and cost-effective conventional bearing system, they are rarely used for seismic isolation because of their low damping. There are various seismic isolation systems based on NRB, but they mostly have multiple drawbacks (cost, capacity, environmental, etc.). The U-shaped damper (UD) is an efficient energy dissipating device used in seismic-resistant design. However, no guidelines or procedures are available to understand its behaviour nor for design purposes. This paper presents an analytical and numerical investigation of the cyclic behaviour of the NRB system combined with UDs that allow to increase the systems’ damping capacity and seismic performance. An analytical study of the UD is performed to predict its initial elastic parameters and numerical models are developed to study the nonlinear behaviour of the NRB-UDs, under large cyclic loadings. A set of UDs and NRBs subjected to cyclic loadings are then studied to investigate their behaviour and the effect of different geometric, loading and design parameters. Results show that the UD significantly dissipates vibration energy based on its large plastic deformations and achieves comparable and predictable performances corresponding to the in-plane and out-of-plane loading directions. Its cyclic behaviour depends on geometrical parameters and material yield stress. The developed analytical formulas provide a reliable estimation of initial elastic parameters of UD, which is essential for the selection and sizing of preliminary designs of the devices. The NRB-UDs systems show a high energy dissipation capacity with stable hysteresis behaviours in any direction. Further, the performance of these devices can be easily adjusted by varying the geometry, number and cross-section of UDs, making them an effective solution that meets a wide range of seismic isolation design requirements in high and moderate seismic areas. © 2021 Elsevier Ltd
Item Type: | Article |
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Divisions: | Institutes > Institute of Techniques for Special Engineering |
Identification Number: | 10.1016/j.engstruct.2021.112647 |
Uncontrolled Keywords: | Bearings (structural); Cost effectiveness; Cyclic loads; Damping; Elasticity; Energy dissipation; Geometry; Nonmetallic bearings; Seismic design; Seismology; Yield stress; Analytical investigations; Bearing systems; Energy dissipation capacities; Improved natural rubber bearing seismic isolation; Natural rubber bearing; Numerical investigations; Seismic isolation; U-shaped; U-shaped damper; Yielding metallic damper; Rubber; analytical method; cyclic loading; damping; energy dissipation; numerical method; seismic design; seismic isolation; seismic response; structural component |
Additional Information: | Language of original document: English. |
URI: | http://eprints.lqdtu.edu.vn/id/eprint/8583 |