Presentation Title

Seismic Energy and Friction Dampers

Faculty Mentor

Drs. Felipe Perez and Giuseppe Lomiento

Start Date

18-11-2017 9:30 AM

End Date

18-11-2017 9:45 AM

Location

9-243

Session

Engineering/CS 1

Type of Presentation

Oral Talk

Subject Area

engineering_computer_science

Abstract

Abstract

This study focuses on mitigation of earthquake induced pounding effects between adjacent buildings. Pounding is the event of two structures colliding with each other due to excessive horizontal sway. It can occur between adjacent buildings with significantly different dynamic characteristics, and when the distance between the two structures is less than the seismic separation set by design specifications. This is a concern as pounding can cause serious damage to the building, or even bring about complete failure and collapse. For example, in the Mexico earthquake of 1985 pounding was found in 40% of the 330 buildings that experienced structural failure [1]. In our experiment we investigate the ability of friction dampers to mitigate pounding effects between two model frames while being tested on a shake table to simulate earthquakes. Friction dampers utilize the Law of Conservation of Energy by translating the kinetic energy of the earthquake, into heat energy via friction in the damper. We use the device to compare and contrast changes in energy dissipation throughout the structure. Numerical analysis is performed to extend experimental results to a wider range of excitation levels. Also, our test shows the ability of friction dampers to decrease the likelihood of pounding. This research is still on-going and further conclusions and applications of friction dampers in multi-degree of freedom systems will be presented in the Spring of 2018.

[1] Jeng, V., K. Kasai, and A. Jagiasi. "The separation to avoid seismic pounding." Proceedings, 10th World Conference on Earthquake Engineering, Madrid (Spain). 1992.

Summary of research results to be presented

This study focuses on mitigation of earthquake induced pounding effects between adjacent buildings. Pounding is the event of two structures colliding with each other due to excessive horizontal sway. It can occur between adjacent buildings with significantly different dynamic characteristics, and when the distance between the two structures is less than the seismic separation set by design specifications. This is a concern as pounding can cause serious damage to the building, or even bring about complete failure and collapse. For example, in the Mexico earthquake of 1985 pounding was found in 40% of the 330 buildings that experienced structural failure [1]. In our experiment we investigate the ability of friction dampers to mitigate pounding effects between two model frames while being tested on a shake table to simulate earthquakes. Friction dampers utilize the Law of Conservation of Energy by translating the kinetic energy of the earthquake, into heat energy via friction in the damper. We use the device to compare and contrast changes in energy dissipation throughout the structure. Numerical analysis is performed to extend experimental results to a wider range of excitation levels. Also, our test shows the ability of friction dampers to decrease the likelihood of pounding. This research is still on-going and further conclusions and applications of friction dampers in multi-degree of freedom systems will be presented in the Spring of 2018.

[1] Jeng, V., K. Kasai, and A. Jagiasi. "The separation to avoid seismic pounding." Proceedings, 10th World Conference on Earthquake Engineering, Madrid (Spain). 1992.

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Nov 18th, 9:30 AM Nov 18th, 9:45 AM

Seismic Energy and Friction Dampers

9-243

Abstract

This study focuses on mitigation of earthquake induced pounding effects between adjacent buildings. Pounding is the event of two structures colliding with each other due to excessive horizontal sway. It can occur between adjacent buildings with significantly different dynamic characteristics, and when the distance between the two structures is less than the seismic separation set by design specifications. This is a concern as pounding can cause serious damage to the building, or even bring about complete failure and collapse. For example, in the Mexico earthquake of 1985 pounding was found in 40% of the 330 buildings that experienced structural failure [1]. In our experiment we investigate the ability of friction dampers to mitigate pounding effects between two model frames while being tested on a shake table to simulate earthquakes. Friction dampers utilize the Law of Conservation of Energy by translating the kinetic energy of the earthquake, into heat energy via friction in the damper. We use the device to compare and contrast changes in energy dissipation throughout the structure. Numerical analysis is performed to extend experimental results to a wider range of excitation levels. Also, our test shows the ability of friction dampers to decrease the likelihood of pounding. This research is still on-going and further conclusions and applications of friction dampers in multi-degree of freedom systems will be presented in the Spring of 2018.

[1] Jeng, V., K. Kasai, and A. Jagiasi. "The separation to avoid seismic pounding." Proceedings, 10th World Conference on Earthquake Engineering, Madrid (Spain). 1992.