Approximation Procedure for Determining Oscillation Period of Frame Structure
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Abstract
Dynamic analysis can be used to find dynamic displacements, time history, and the frequency content of the load. One analysis technique for calculating the linear response of structures to dynamic loading is a modal analysis. In modal analysis, we decompose the response of the structure into several vibration modes. A mode is defined by its frequency and shape. Structural engineers call the mode with the shortest frequency (the longest period) the fundamental mode. Holzer and Stodola's approximate methods for determining the forms and periods of oscillation for frame structures are presented in the paper. An approximation method, based on approximate relative stiffnesses of the storeys and the ground floor, is analyzed and proposed. The results obtained by the proposed approximate procedure do not greatly deviate from those obtained by more accurate calculations. It is therefore emphasized that the method can be used both in practice and for checking computer-based analysis of complex systems. At the end of the paper was given a comparison of the results obtained by approximate methods and some engineering software.
Keywords
Oscillation period, Frame structure, Approximate methods
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Muratovic, M. & Tresnjo, F. (2021). Approximation Procedure for Determining Oscillation Period of Frame Structure. International Journal on Engineering, Science and Technology (IJonEST), 3(1), 79-86.
DOI: https://doi.org/10.46328/ijonest.43
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