NEHRP Clearinghouse
- Title
- Conceptual Design and Experimental Investigation of Polymer Matrix Composite Infill Panels for Seismic Retrofitting.
- File
- PB2007106986.pdf
- Author(s)
- Jung, W.; Chiewanichakorn, M.; Aref, A. J.
- Source
- Multidisciplinary Center for Earthquake Engineering Research, Buffalo, NY.; National Science Foundation, Washington, DC., September 21, 2006, 352 p.
- Identifying Number(s)
- MCEER-06-0010
- Abstract
- In this research, three prefabricated PMC infill panel systems for seismic retrofitting were proposed. The PMC infill panels were studied using experimental methods to assess their effectiveness and response under simulated earthquake loading. Applying the concept of combined interface damping layers to the proposed panel systems was found to be highly feasible in the seismic applications. Design and fabrication procedures for each PMC infill panel were presented, and a conceptual trial design was performed using finite element (FE) analysis. To validate the proposed systems in real situations, both monotonic- and cyclic-loading tests were performed on full-scale models. According to the authors, the results obtained from this research showed that the systems offer the potential to increase the damping as well as the lateral resistance of steel frames, with a relatively low cost of retrofitting. Tables, figures and references are included.
- Keywords
- Lateral resistance; Retrofitting; Seismic performance; Polymer matrix materials; Existing structures; Earthquake engineering; Energy dissipation; Polymer Matrix Composite (PMC); Composite materials; Structural enhancement; Material efficiency; Infill panel systems; Construction; Structural damping