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PUBLICATIONS

Impact of Detailing on the Lateral Performance of Cold-Formed Steel Framed Walls

Published

Author(s)

Zhidong Zhang, Matthew Speicher, Amanpreet Singh, Tara Hutchinson, Benjamin Schafer

Abstract

The main objective of this study is to investigate the impact of structural and non-structural detailing that is not directly accounted for in conventional lateral strength and ductility design of wall-lines constructed of cold-formed steel (CFS) framed steel sheet shear walls. A key structural detail that commonly occurs in wall-lines, but not in shear wall testing, is the presence of a heavy ledger track attached along the top of the wall, as this facilitates connection of the floor system with the wall. A key non-structural detail, which will impact the wall-line's lateral performance, is the presence and type of finish system (e.g., gypsum board). Herein, a numerical study employing OpenSees is validated and exercised on wall-line models with or without ledger tracks as well as with or without finish. Modeling results predict the degree by which both strength and ductility of wall-lines increase due to the presence of a ledger track and/or finish system. The strength increase can be attributed to the engagement of ledger track-to-stud connection moment resistance and additional direct shear resistance provided by an applied finish layer. The developed OpenSees model is able to capture the impact of detailing and can be incorporated into building-level simulations.
Proceedings Title
Proceedings of the 12th National Conference on Earthquake Engineering
Conference Dates
June 27-July 1, 2022
Conference Location
Salt Lake City, UT, US
Conference Title
12th National Conference on Earthquake Engineering
Pub Type
Conferences

Download Paper

Local Download

Keywords

CFS, Seismic, Steel, Structural, Shear wall
Earthquake risk reduction and Buildings and Construction

Citation

Zhang, Z. , Speicher, M. , Singh, A. , Hutchinson, T. and Schafer, B. (2022), Impact of Detailing on the Lateral Performance of Cold-Formed Steel Framed Walls, Proceedings of the 12th National Conference on Earthquake Engineering, Salt Lake City, UT, US, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=933727 (Accessed October 10, 2025)

Issues

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Created June 27, 2022, Updated April 17, 2025
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