標題: | 鋼結構同心斜撐構架系統之靜態往覆載重實驗加載歷時評估(II) Evaluation of Quasi-Static Loading Protocols for Special Concentrically Braced Steel Frame Systems (II) |
作者: | 陳垂欣 Chen Chui-Hsin 國立交通大學土木工程學系(所) |
公開日期: | 2012 |
摘要: | 目前規範中所採用的鋼結構靜態往覆加載實驗所施加的位移歷時,若直接施加於
鋼結構同心斜撐構架系統,實缺乏理論基礎。規範中的鋼結構靜態實驗加載歷時,主
要根據鋼結構抗彎構架系統的動力行為而決定,然而鋼結構同心斜撐構架系統與抗彎
構架系統在結構動力特性上有所差異,因此,用來決定同心斜撐構架系統破壞行為及
容量的靜態實驗加載歷時需要再重新研究檢討。
本研究以一系列不同地震危害程度的地震歷時,分析同心斜撐構架系統的非線性
動力行為,歸納結構物在非線性動力分析中的破壞累積行為,並以靜態往覆載重模擬
類似的破壞累積行為,研究將提出適當的結構行為參數,用以表達靜態實驗加載歷時。
所提出的加載歷時將以斜撐構架實驗驗證其複雜的破壞行為,實驗計畫規劃兩組
實尺寸斜撐構架實驗,探討同心斜撐構架系統在不同加載歷時作用下的構架整體與局
部破壞模式。實驗將配合有限元素分析以建立結構破壞行為與加載歷時之關係。
研究目標將檢討現有靜態實驗往覆載重加載歷時,並提出適當歷時,以使類似行
為的結構系統與構件之靜態實驗結果,在評估結構破壞行為與容量時,更精確且更具
代表性。 Quasi-static cyclic testing has been a standard procedure to identify the performance of structural components and frame systems. The loading protocols are standardized in the provisions. The universal quasi-static loading protocol for steel structures is based on the seismic responses of steel moment frame systems. However, different structural systems have different dynamic properties. The fundamental periods of steel concentrically braced frame (SCBF) system are usually shorter than those of steel moment frame systems, and the failure modes are also different for the two structural systems. As such, applying the universal quasi-static loading protocol to SCBF systems cannot accurately estimate the damage states of SCBF systems under seismic loading. Thus, it is essential to constitute a more representative quasi-static loading protocol for SCBF systems. This research will propose a quasi-static loading protocol in terms of structural damage parameters, such as the cumulative plastic deformation, strain energy, etc. First, a series of ground motion records will be selected to represent various seismic hazard levels. The dynamic responses of SCBF systems to the ground motions will be summarized from non-linear dynamic analyses. A representative loading protocol will be proposed based on the analysis results, and then examined by two full-scale frame tests. The complicated damage behavior and global and local failure modes of the SCBF system will be explored in the tests. Also, the research will employ finite-element analysis to help construct the relationship between the quasi-static loading protocols and the damage states of the structural system. The research will investigate the current quasi-static loading protocols and propose a more appropriate loading protocol to present the failure modes of SCBF systems under seismic excitations properly. With the proposed loading protocol, engineers and researchers can estimate the performance and the capacity of the SCBF systems more accurately when conducting a quasi-static cyclic testing. |
官方說明文件#: | NSC101-2221-E009-109 |
URI: | http://hdl.handle.net/11536/98182 https://www.grb.gov.tw/search/planDetail?id=2647054&docId=399525 |
顯示於類別: | 研究計畫 |