Title : ( DESIGN, TESTING AND DETAILED COMPONENT MODELING OF A DOUBLE TELESCOPING SELF-CENTERINGENERGY-DISSIPATIVE BRACE (DT-SCED) )
Authors: mohammadhossein baradarankhalkhali , Abbas Karamodin ,Abstract
Telescopic Self-Centering braces are one of the very successful examples of Self-Centering braces which perform well in seismic loading. In this study, a new example of Telescopic Self-Centering brace is introduced, which has superior features over other telescopic braces. These include: high axial load capacity, use of shorter cables in brace construction, simplicity of construction, use of separate cables for compressive and traction modes, less fatigue in cyclic loads and, allowing for more dynamic loading cycles. In this paper, a sample was designed with an axial force capacity of 300kN.Modeling of behavior (DT-SCED) was accurately expressed using numerical relationships. Nonlinear incremental stiffness analysis method was also used to calculate the hysteresis brace behavior. The cyclic load test was applied to this brace and the result showed complete Self-Centering behavior. The results are compared with numerical relationships that were in good agreement.
Keywords
, Telescoping Self-Centering Energy-Dissipative Brace (DT-SCED), Cyclic Load Test, Nonlinear Incremental Stiffness Analysis.@article{paperid:1081072,
author = {Baradarankhalkhali, Mohammadhossein and Karamodin, Abbas},
title = {DESIGN, TESTING AND DETAILED COMPONENT MODELING OF A DOUBLE TELESCOPING SELF-CENTERINGENERGY-DISSIPATIVE BRACE (DT-SCED)},
journal = {Journal of Mechanics of Continua and Mathematical Sciences},
year = {2020},
volume = {15},
number = {5},
month = {May},
issn = {0973-8975},
keywords = {Telescoping Self-Centering Energy-Dissipative Brace (DT-SCED); Cyclic
Load Test; Nonlinear Incremental Stiffness Analysis.},
}
%0 Journal Article
%T DESIGN, TESTING AND DETAILED COMPONENT MODELING OF A DOUBLE TELESCOPING SELF-CENTERINGENERGY-DISSIPATIVE BRACE (DT-SCED)
%A Baradarankhalkhali, Mohammadhossein
%A Karamodin, Abbas
%J Journal of Mechanics of Continua and Mathematical Sciences
%@ 0973-8975
%D 2020