Effects of confinement level, cross-section shape and corner radius on the cyclic behavior of CFRCM confined concrete columns
P Colajanni, M Fossetti, G Macaluso - Construction and Building Materials, 2014 - Elsevier
P Colajanni, M Fossetti, G Macaluso
Construction and Building Materials, 2014•ElsevierThe main results of an experimental research aiming to investigate the behavior of medium-
size low-strength concrete columns wrapped with Carbon Fiber Reinforced Cementitious
Matrix (CFRCM) under monotonic and cyclic compressive axial loads are presented. Thirty
columns with circular, square and rectangular cross-sections were tested under monotonic
and cyclic axial loads to investigate the effect of the confinement level, the cross-section
shape and the corner radius on the stiffness, strength, and ductility of CFRCM confined …
size low-strength concrete columns wrapped with Carbon Fiber Reinforced Cementitious
Matrix (CFRCM) under monotonic and cyclic compressive axial loads are presented. Thirty
columns with circular, square and rectangular cross-sections were tested under monotonic
and cyclic axial loads to investigate the effect of the confinement level, the cross-section
shape and the corner radius on the stiffness, strength, and ductility of CFRCM confined …
Abstract
The main results of an experimental research aiming to investigate the behavior of medium-size low-strength concrete columns wrapped with Carbon Fiber Reinforced Cementitious Matrix (CFRCM) under monotonic and cyclic compressive axial loads are presented. Thirty columns with circular, square and rectangular cross-sections were tested under monotonic and cyclic axial loads to investigate the effect of the confinement level, the cross-section shape and the corner radius on the stiffness, strength, and ductility of CFRCM confined concrete columns under cyclic loads. The results prove that CFRCM confining jackets provide substantial gain in compressive strength, deformability and absorbed energy.
Elsevier
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