Abstract A particular off- centre bracing system (OBS) is introduced. In this system the tensile diagonal strut is not straight. Once the load is applied, the original geometry changes and, therefore, the load-deflexion of such a system becomes geometrically non-linear. An iterative method of analysis has been developed to study the non-linear load-deflexion behaviour of off- centre bracing systems (OBS). The results indicate that the stiffness increases with load and that the load-deflexion characteristics can be similar to that of hardening springs. The degree of non-linearity mainly depends on the eccentricity of the tension diagonal and the relative stiffness of bracing members. The non-linear characteristics of OBS were then considered as an effective expedient for mitigation of seismic loads. A non-linear program was developed to analyse seismic response of off-centre bracings subjected to various collapse-level earthquakes. The results indicate that OBS behave generally like base isolated systems and that the response may be reduced remarkably by pre-adjustment of eccentrcity and relative stiffness of bracings.
[1]
James M. Kelly,et al.
Base Isolation: Linear Theory and Design
,
1990
.
[2]
R. Sharpe.
Tentative Provisions for the Development of Seismic Regulations for Buildings
,
1994
.
[3]
Keh-Chyuan Tsai,et al.
Seismic eccentrically braced frames
,
1993
.
[4]
Ronald L. Mayes,et al.
Seismic Isolation: History, Application, and Performance—A World View
,
1990
.
[5]
J. Datio Aristizabal‐Ochoa.
Disposable Knee Bracing: Improvement in Seismic Design of Steel Frames
,
1986
.
[6]
James M. Kelly,et al.
Aseismic base isolation: review and bibliography
,
1986
.
[7]
Emilio Rosenblueth,et al.
Fundamentals of earthquake engineering
,
1971
.
[8]
Egor P. Popov,et al.
On Design of Eccentrically Braced Frames
,
1989
.