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High Strength Steel and Fuse Dissipative Solutions for Seismic Resistant Building Structures
Author(s) -
Dubina Dan
Publication year - 2021
Publication title -
ce/papers
Language(s) - English
Resource type - Journals
ISSN - 2509-7075
DOI - 10.1002/cepa.1261
Subject(s) - structural engineering , hinge , dissipative system , fuse (electrical) , stiffness , shear (geology) , plastic hinge , buckling , computer science , materials science , engineering , composite material , physics , electrical engineering , quantum mechanics
The robustness of structures against severe seismic action is ensured by their global performance, in terms of ductility stiffness and strength , properly calibrated. The “ plastic “ members of ductile Mild Carbon Steel ‐ MCS – (S235 to S355) will dissipate the seismic energy, acting as “s tructural fuses “, while the “ elastic “ members, must be provided of adequate overstrength, to have the capacity to carry the supplementary stresses after the plastic hinges have been formed and the redistribution forces were occurred. For these elastic members, High Strength Steels (HSS), such as S460 to S690, might be used, provide them the necessary overstrength, without enhancing the stiffness, because that could unbalance the structural system. These structures, which combine HSS with MCS, are termed Dual‐Steel (DS). The braced frames can be equipped with detachable dissipative MCS members, which are acting as seismic fuses . In case of CBF, the fuses might be the Buckling Restrained Braces (BRB), while for EBF, the links could take this role. In case of MRF, Steel Plate Shear Walls (SW) can be used as fuses . To make possibly to replace the used fuses , the HSS elastic part of the structure, has the mission to re‐centring the structure after the earthquake. This is the subject of present paper.

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