2010
DOI: 10.1002/eqe.1042
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Three‐dimensional analysis for square seismic isolation bearings under large shear deformations and high axial loads

Abstract: Square seismic isolation bearings are economical to manufacture, offer the advantage of simple connection configurations and have compact geometry requiring a minimum of space for installation. To be able to more effectively utilize square bearings for seismic isolation systems, a new mechanical model for predicting the large shear deformation behavior of square elastomeric isolation bearings is presented in this paper. The new model is developed by extending to three dimensions an existing model for elastomer… Show more

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Cited by 77 publications
(39 citation statements)
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“…A model that includes the influence of vertical load on the effective horizontal stiffness and lead-core yield strength was developed by Ryan et al [35] and has been implemented in OpenSees [26]. Models that account for the second-order effects due to vertical load at large horizontal displacement have been developed [36][37][38] and are capable of exhibiting zero or negative tangential horizontal stiffness as has been experimentally demonstrated [39]. However, these models have not been widely adopted due to the extensive experimental data required to calibrate the model parameters.…”
Section: Lead-rubber Bearingsmentioning
confidence: 99%
“…A model that includes the influence of vertical load on the effective horizontal stiffness and lead-core yield strength was developed by Ryan et al [35] and has been implemented in OpenSees [26]. Models that account for the second-order effects due to vertical load at large horizontal displacement have been developed [36][37][38] and are capable of exhibiting zero or negative tangential horizontal stiffness as has been experimentally demonstrated [39]. However, these models have not been widely adopted due to the extensive experimental data required to calibrate the model parameters.…”
Section: Lead-rubber Bearingsmentioning
confidence: 99%
“…Figure shows nonlinear hysteretic models used for the multiple springs. These are models that have previously been proposed for lead‐rubber bearings . The axial stress‐strain relationship shown in Figure A exhibits high stiffness and yielding stress in the compression region and low stiffness and yielding stress in the tension region.…”
Section: Bearing Tests and Simulation Analysesmentioning
confidence: 92%
“…This model is an extension of the mechanical model proposed by Yamamoto et al and Kikuchi et al The improved model proposed herein is specific to circular bearings and considers the compression modulus distribution with a minimal increase in complexity. In other words, the mechanical model proposed by Yamamoto et al for 2‐D analysis without considering the modulus distribution has been upgraded to a 3‐D model considering the modulus distribution, and the mechanical model proposed by Kikuchi et al for square bearings has been modified using the proposed grid pattern and modulus distribution for circular bearings. A detailed model formulation that considers finite deformations and the P‐Δ effect was described in the preceding paper .…”
Section: Mechanical Model For Circular Rubber Bearingsmentioning
confidence: 99%
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