Related projects
Discover more projects across a range of sectors and discipline — from AI to cleantech to social innovation.
The structural performance of skyscrapers subjected to natural hazards such as strong winds and earthquakes has significant effects on the resilience of a city because of the recent boom in the construction of skyscrapers around the world. However, resilience is currently not explicitly considered in the design of tall buildings. Studies show that modern tall buildings can suffer significant damage due to natural hazards and they might need to be closed for up to 23 years for repair. This has serious socio-economic repercussions. Therefore, this research is first aimed at developing a comprehensive framework for evaluating resilience of modern skyscrapers. The research will then investigate methods of enhancing tall-building resilience using the Viscoelastic Coupling Damper, which is Kineticas ground breaking technology. Kinetica is a leader in the design of tall buildings and the findings of this research will create working platforms for Kinetica to enhance its competitiveness worldwide.
Evan Bentz
Deepak Raj Pant
Kinetica Dynamics Inc.
Engineering - civil
Construction and infrastructure
University of Toronto
Elevate
Discover more projects across a range of sectors and discipline — from AI to cleantech to social innovation.
Find the perfect opportunity to put your academic skills and knowledge into practice!
Find ProjectsThe strong support from governments across Canada, international partners, universities, colleges, companies, and community organizations has enabled Mitacs to focus on the core idea that talent and partnerships power innovation — and innovation creates a better future.