原文传递
Hysteresis Model for Fiber Elements in Effective Damaged Zone of Square-Section Steel Piers Considering Local Instability Effect of Steel Plates
| 题名: | Hysteresis Model for Fiber Elements in Effective Damaged Zone of Square-Section Steel Piers Considering Local Instability Effect of Steel Plates |
| 正文语种: | 英文 |
| 作者: | Hanqing Zhuge;Xu Xie, Ph.D. |
| 作者单位: | Zhejiang Univ |
| 关键词: | Bridge engineering; Square-section steel pier; Seismic response; Local instability; Length of effective damaged zone; Equivalent hysteresis model; Improved fiber model |
| 摘要: | The local instability of steel plates is the predominant seismic failure mode for steel bridge piers. However, the application of shell-based finite-element (FE) models in an engineering design presents significant difficulties, and existing simplified calculation methods have their own insufficiency. In this paper, single-column square-section steel bridge piers were studied to propose an equivalent hysteretic model for the fiber elements of steel piers that can consider the local instability behavior of steel plates. Using the length of the half-buckling wave at the bottom of pier as the length of effective damaged zone (Lj), average stress-strain curves of the cross-section points over the Ld were extracted from the calculation results of a fiber-shell hybrid model. The two-surface constitutive model of material was modified by introducing the equivalent elastic modulus and skeleton curve and reducing the bounding surface radius to make the hysteresis and average stress-strain curves coincide. An equivale nt hysteresis model for the fiber elements in the effective damaged zone was proposed, and the process for identifying model parameters was introduced. Using Q345qC structural steel as an example, regression formulae for equivalent hysteresis model parameters were established. Based on the comparison with calculation results of a hybrid element model, the improved fiber model can accurately calculate the seismic response of a structure under horizontal unidirectional or bidirectional earthquakes and significantly save calculation cost. The proposed equivalent hysteresis model can provide a method for calculating the elastoplastie seismic response with a high accuracy and good availability for the seismic design of steel piers under horizontal bidirectional earthquake actions. |
| 出版日期: | 2020 |
| 出版年: | 2020 |
| 期刊名称: | Journal of Structural Engineering |
| 卷: | Vol.146 |
| 期: | No.08 |
| 页码: | 04020156 |
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