Assessment of Accidental Torsion in Building Structures Using Static and Dynamic Analysis Procedures

• Main Authors: Osama Ahmed Mohamed, Mohamed Sherif Mehana
• Format: Article
• Language: English
• Published: MDPI AG 2020-08-01
• Series: Applied Sciences
• Subjects: Torsional irregularity; accidental torsion; translation frequency; torsional frequency; frequency ratio; ground motion
• Online Access: https://www.mdpi.com/2076-3417/10/16/5509

This article presents the findings of a study on assessment of the increase in building’s response due to accidental torsion when subjected to seismic forces. Critical stiffness and geometrical parameters that define buildings torsional response are examined including: (1) the ratio, <i>Ω</i>, between uncoupled torsional frequency <i>ω</i>_Ɵ to uncoupled translation frequencies in the direction of ground motion ω_x or ω_y, (2) floor plan aspect ratio, <i>b/r</i>, which is a function of the floor dimension and radius of gyration. The increased response is assessed on symmetric multi-storey buildings using both static and dynamic analysis methods specified by ASCE-7 and considering parameters affecting the torsional response. It was concluded that static and dynamic analysis procedures predict different accidental torsion responses. Static analysis based on the Equivalent Lateral Force (<i>ELF)</i> method predicts more conservative accidental torsions responses for flexible structures with <i>Ω</i> < 0.7~0.80, while the responses are less conservative for stiffer buildings. The conservativism in static analysis method is attributed to the response amplification factor, <i>Ax</i>. Floor plans and their lateral support system having frequency ratio <i>Ω</i> = 1 will also have a torsional radius equal to radius of gyration, and will experience drop in torsional response relative to more torsionally flexible buildings. This article presents a procedure to overcome the shortcomings of static and dynamic analysis procedures in terms of estimating accidental torsion response of symmetric building structures.