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Investigation on vertical stiffness reduction of thick rubber bearings under lateral displacement
Highlights Full-scale thick rubber bearings were subjected to axial tests under lateral displacement. Tests at the material and isolator levels were used to calibrate a finite element model. A parametric finite element study was carried out to explore the influence factors. The vertical stiffness reduction for different parameters was quantified. An empirical formulation was proposed for predicting the vertical stiffness reduction.
Abstract Elastomeric bearings with thick rubber layers, called Thick Rubber Bearings (TRBs), can be used as three-dimensional (3D) isolators. During their design, the vertical stiffness is a critical parameter. This study focuses on exploring the parameters that influence the vertical stiffness reduction of TRBs and on developing a simplified method for its prediction. Four full-scale TRBs with various first and second shape factors (S 1 and S 2) were designed and subjected to axial tests under lateral displacement. Their vertical stiffness was determined. The experimental results showed that for bearings with a lower S 1, the vertical stiffness under small lateral displacement increases and then decreases as the lateral displacement increases. Then, tests at the material and isolator levels were used to calibrate a finite element (FE) model of TRBs. A parametric FE study was carried out to investigate the effects of various parameters on the normalized vertical stiffness of TRBs over a wide range of lateral displacements. The study quantified the vertical stiffness reduction for different values of pressure, S 1, and S 2. It also evaluated code recommendations for the steel shims used in TRBs. Then, existing formulations were compared to numerical results and it was shown that they cannot accurately predict the reduction of the vertical stiffness of TRBs. Finally, an empirical formulation considering the variation in S 1 and S 2 of TRBs was proposed. The predicted results showed good agreement with the numerical data.
Investigation on vertical stiffness reduction of thick rubber bearings under lateral displacement
Highlights Full-scale thick rubber bearings were subjected to axial tests under lateral displacement. Tests at the material and isolator levels were used to calibrate a finite element model. A parametric finite element study was carried out to explore the influence factors. The vertical stiffness reduction for different parameters was quantified. An empirical formulation was proposed for predicting the vertical stiffness reduction.
Abstract Elastomeric bearings with thick rubber layers, called Thick Rubber Bearings (TRBs), can be used as three-dimensional (3D) isolators. During their design, the vertical stiffness is a critical parameter. This study focuses on exploring the parameters that influence the vertical stiffness reduction of TRBs and on developing a simplified method for its prediction. Four full-scale TRBs with various first and second shape factors (S 1 and S 2) were designed and subjected to axial tests under lateral displacement. Their vertical stiffness was determined. The experimental results showed that for bearings with a lower S 1, the vertical stiffness under small lateral displacement increases and then decreases as the lateral displacement increases. Then, tests at the material and isolator levels were used to calibrate a finite element (FE) model of TRBs. A parametric FE study was carried out to investigate the effects of various parameters on the normalized vertical stiffness of TRBs over a wide range of lateral displacements. The study quantified the vertical stiffness reduction for different values of pressure, S 1, and S 2. It also evaluated code recommendations for the steel shims used in TRBs. Then, existing formulations were compared to numerical results and it was shown that they cannot accurately predict the reduction of the vertical stiffness of TRBs. Finally, an empirical formulation considering the variation in S 1 and S 2 of TRBs was proposed. The predicted results showed good agreement with the numerical data.
Investigation on vertical stiffness reduction of thick rubber bearings under lateral displacement
Zhou, Ying (author) / Zhang, Zengde (author) / Vassiliou, Michalis F. (author)
2022-10-21
Article (Journal)
Electronic Resource
English
Vertical stiffness degradation of laminated rubber bearings under lateral deformation
| British Library Online Contents | 2017
Vertical stiffness degradation of laminated rubber bearings under lateral deformation
| Online Contents | 2017