2019
Dr. Ali Imanpour
Department of Civil and Environmental Engineering, University of Alberta

Innovative Modular Structural System for Steel Framed Structures

Steel moment-resisting frames (MRFs) are one of the most desirable load resisting systems for the construction of building structures under gravity and lateral loads such as the wind and earthquake because of high architectural versatility, use of long span beams and significant ductility capacity. A low perception of construction cost and ingrained building practices lead building stakeholders to often select alternative systems and materials.

This research project investigates a novel and innovative steel modular structural system that utilizes the advantages of moment-resisting frames and knee-braced frames to resist wind and seismic loads in mid- and high-rise buildings. The proposed system referred to as the modular steel moment-resisting frame with knee elements also benefits from the modular construction technology. This system aims to resist the lateral wind or earthquake load in the regions of low and moderate seismicity, and utilizes the advantages of large span steel moment-resisting systems to provide high architectural flexibility and braced frames to improve lateral stiffness of the structure. It is expected that his structural system can effectively overcome the constraints associated with conventional steel moment resisting frames. Furthermore, the innovative features investigated in this project will allow the proposed modular system to economically and efficiently resist gravity and lateral loads while providing several fabrication, erection and schedule benefits.