Finite element modeling and experimental verification of lightweight steel floor vibration

• Main Authors: Je-Woo Park, Tae-Hyu Ha, Hongjin Kim
• Format: Article
• Language: English
• Published: JVE International 2016-05-01
• Series: Journal of Vibroengineering
• Subjects: floor vibration; lightweight steel floor; finite element analysis; experimental verification; natural frequency
• Online Access: https://www.jvejournals.com/article/16754
• ISSN: 1392-8716; 2538-8460

Due to the lack of design standard and the difficulty of analysis, the floor vibration analysis of lightweight steel floors has received less attention than the analysis of typical floor structures. In this paper, the finite element model for lightweight steel floors is presented utilizing the rigid link and realistic support restraints. The rigid rink is used to solve the problem of difference in the centroid of beam, joist, and flooring material and to guarantee the same behavior of those members. Two different support restraints, all fixed restraint and mixture of fixed and released restraint, are used in the analysis. The finite element model is verified through the human impact loading test of the full-scale light-weight steel floors that have different joist condition and middle beam. The finite element analysis results indicate that the different joists having same moment of inertia yield similar natural frequencies, while the test results of full-scale floors show that the floor with the closed shaped joists yields higher natural frequency than the floor with open shaped joists. The test results also indicate that the finite element analysis using the mixture of fixed and released support restraint yields closer natural frequencies to those of actual floors.