Numerical Modeling of New Semiactive Damper Actuator: Fid-Bau Portal

Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

Numerical Modeling of New Semiactive Damper Actuator

Owji, H. R. / Bondarabady, H. A. Rahimi / Rafeeyan, M. / Sarvestani, H. Hooshmand

Recent investigations have demonstrated the ability of semiactive devices to reduce the structural vibration. In this paper, a new device called the semiactive damper actuator (SADA) is introduced, which reduces the vibration response of structures during earthquakes. Numerical simulations are carried out to study the effects and advantages of SADA. Simulation results are presented and the responses of structures equipped with this device are compared with ones equipped with other similar devices. The results show SADA’s ability to reduce the seismic response of structures. SADA is a semiactive type and requires low energy to operate; therefore, it can be used widely to control the seismic response of structures.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Numerical Modeling of New Semiactive Damper Actuator

Owji, H. R. / Bondarabady, H. A. Rahimi / Rafeeyan, M. / Sarvestani, H. Hooshmand

Recent investigations have demonstrated the ability of semiactive devices to reduce the structural vibration. In this paper, a new device called the semiactive damper actuator (SADA) is introduced, which reduces the vibration response of structures during earthquakes. Numerical simulations are carried out to study the effects and advantages of SADA. Simulation results are presented and the responses of structures equipped with this device are compared with ones equipped with other similar devices. The results show SADA’s ability to reduce the seismic response of structures. SADA is a semiactive type and requires low energy to operate; therefore, it can be used widely to control the seismic response of structures.

Numerical Modeling of New Semiactive Damper Actuator

Owji, H. R. / Bondarabady, H. A. Rahimi / Rafeeyan, M. / Sarvestani, H. Hooshmand

Recent investigations have demonstrated the ability of semiactive devices to reduce the structural vibration. In this paper, a new device called the semiactive damper actuator (SADA) is introduced, which reduces the vibration response of structures during earthquakes. Numerical simulations are carried out to study the effects and advantages of SADA. Simulation results are presented and the responses of structures equipped with this device are compared with ones equipped with other similar devices. The results show SADA’s ability to reduce the seismic response of structures. SADA is a semiactive type and requires low energy to operate; therefore, it can be used widely to control the seismic response of structures.

Access

Check availability in my library

Order at Subito €

Page navigation

Document information

Export, share and cite

Document information

Title:

Numerical Modeling of New Semiactive Damper Actuator

Contributors:

Owji, H. R. (author) / Bondarabady, H. A. Rahimi (author) / Rafeeyan, M. (author) / Sarvestani, H. Hooshmand (author)

Published in:

Journal of Structural Engineering ; 139

Publication date:

2013-09-09

ISSN:

0733-9445 , 1943-541X

DOI:

https://doi.org/10.1061/(ASCE)ST.1943-541X.0000873

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Similar titles

Numerical Modeling of New Semiactive Damper Actuator

Owji, H. R. | Online Contents | 2013

Numerical Modeling of New Semiactive Damper Actuator

Owji, H.R. / Bondarabady, H.A.R. / Rafeeyan, M. et al. | British Library Online Contents | 2013

Semiactive Control of Building Structures with Semiactive Tuned Mass Damper

Lin, P.Y. | Online Contents | 2005

Semiactive Control of Building Structures with Semiactive Tuned Mass Damper

Lin, P. Y. / Chung, L. L. / Loh, C. H. | Wiley | 2005

Semiactive Friction Damper for Lightweight Pedestrian Bridges

Wieczorek, Nina / Gerasch, Wolf-Jürgen / Rolfes, Raimund et al. | ASCE | 2013