A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Experimental study of lightly reinforced concrete walls upgraded with various schemes under seismic loading
HighlightsSeismic resistance of lightly reinforced concrete walls is investigated.The correlation between seismic damage and lateral drift are reported in details.An additional wall panel improved the shear strength and ductility of existing wall.Increasing the amount of horizontal reinforcement controlled the opening of cracks.
AbstractThe 2011 off the Pacific coast of Tohoku Earthquake clarified the weakness of lightly reinforced concrete (RC) walls with opening (spandrel, wall pier, wing wall) in residential and government office buildings. Lightly RC walls are not a critical structural component, but their damage often impaired functions of buildings after earthquakes although it did not jeopardize safety. In order to avoid the suspension of building function due damage to lightly RC walls, it is very important to have proper upgrading schemes to improve the seismic performance. An experimental study was carried out on three full-scale wall specimens upgraded with various schemes to improve the seismic behavior of shear-type damage of lightly RC walls. Two specimens were upgraded using additional RC panel and ultra-high strength fiber reinforced concrete (UFC) panel to prevent shear failure. The other specimen had upgraded reinforcement details to increase shear capacity and flexural ductility. The test results were compared with past lightly RC wall test as a reference wall, which failed prematurely in shear reproducing the failure observed in the field. The changes of ultimate failure mode and the damage process were observed. Three upgraded specimens showed ductile and stable behavior with less damage compared with the reference wall. Adding RC and UFC panels improved the behavior of lightly RC wall and prevented crack formation at the central part of the wall panel. Increasing the amount of horizontal reinforcement and providing confinement in the boundary regions controlled the opening of crack width and made structure more ductile.
Experimental study of lightly reinforced concrete walls upgraded with various schemes under seismic loading
HighlightsSeismic resistance of lightly reinforced concrete walls is investigated.The correlation between seismic damage and lateral drift are reported in details.An additional wall panel improved the shear strength and ductility of existing wall.Increasing the amount of horizontal reinforcement controlled the opening of cracks.
AbstractThe 2011 off the Pacific coast of Tohoku Earthquake clarified the weakness of lightly reinforced concrete (RC) walls with opening (spandrel, wall pier, wing wall) in residential and government office buildings. Lightly RC walls are not a critical structural component, but their damage often impaired functions of buildings after earthquakes although it did not jeopardize safety. In order to avoid the suspension of building function due damage to lightly RC walls, it is very important to have proper upgrading schemes to improve the seismic performance. An experimental study was carried out on three full-scale wall specimens upgraded with various schemes to improve the seismic behavior of shear-type damage of lightly RC walls. Two specimens were upgraded using additional RC panel and ultra-high strength fiber reinforced concrete (UFC) panel to prevent shear failure. The other specimen had upgraded reinforcement details to increase shear capacity and flexural ductility. The test results were compared with past lightly RC wall test as a reference wall, which failed prematurely in shear reproducing the failure observed in the field. The changes of ultimate failure mode and the damage process were observed. Three upgraded specimens showed ductile and stable behavior with less damage compared with the reference wall. Adding RC and UFC panels improved the behavior of lightly RC wall and prevented crack formation at the central part of the wall panel. Increasing the amount of horizontal reinforcement and providing confinement in the boundary regions controlled the opening of crack width and made structure more ductile.
Experimental study of lightly reinforced concrete walls upgraded with various schemes under seismic loading
Yuniarsyah, Eko (author) / Kono, Susumu (author) / Tani, Masanori (author) / Taleb, Rafik (author) / Watanabe, Hidekazu (author) / Obara, Taku (author) / Mukai, Tomohisa (author)
Engineering Structures ; 138 ; 131-145
2017-02-01
15 pages
Article (Journal)
Electronic Resource
English
Seismic Fragility Assessment of Lightly Reinforced Concrete Structural Walls
| Online Contents | 2015