Index Geophysics

en-US Customising semi-active resetable device behaviour for abating seismic structural response

en-US Semi-active resetable actuators have been shown to be capable of significantly improving seismic structural response and customising structural hysteresis loops to reduce both displacement and base shear demands. Hence, device behaviour and dynamics can be tailored to the application. However, the maximum forces produced, in particular with air as the working fluid, can be a limiting factor to avoid extreme device sizes. This investigation incorporates an actively controlled (stored) high-pressure air source to enhance the capabilities of such resetable devices. The devices are designed using a validated non-linear model incorporating the dynamics and non-linearities of the working fluid, valves, sensor lags and computational limitations. Initial simulations show 100-600% increases in the peak device forces, with 100% obtained when the initial pressure is doubled. In addition, the high pressure source allows greater manipulation of the device behaviour and response. This additional flexibility enables, for example, devices that are more resistant or resist differently in opposing directions. The impact of device enhancements over standard resetable devices is then demonstrated experimentally. This paper extends these novel resetable devices to create more flexible and actively controlled devices for semi-active structural control. Finally, a “net-zero base shear design” concept is presented, where the added damping reaction forces are exactly offset by structural response reductions to give large displacement reductions with no overall change to base shear forces – maximising control with no impact on the foundations.

Rodgers, Geoffrey W.

Chase, J. Geoffrey

Mulligan, Kerry J.

Mander, John B.

Elliott, Rodney B.

en-US New Zealand Society for Earthquake Engineering

2009-09-30

info:eu-repo/semantics/article

info:eu-repo/semantics/publishedVersion

en-US Article

application/pdf

https://bulletin.nzsee.org.nz/index.php/bnzsee/article/view/294

10.5459/bnzsee.42.3.147-156

en-US Bulletin of the New Zealand Society for Earthquake Engineering; Vol 42 No 3 (2009); 147-156

2324-1543

1174-9857

eng

https://bulletin.nzsee.org.nz/index.php/bnzsee/article/view/294/280

en-US Copyright (c) 2009 Geoffrey W. Rodgers, J. Geoffrey Chase, Kerry J. Mulligan, John B. Mander, Rodney B. Elliott

en-US https://creativecommons.org/licenses/by/4.0