Add to ORKGReinforced concrete columns might fail because of buckling of the longitudinal reinforcing bar when exposed to earthquake motions. Depending on the hoop stiffness and the length-over-diameter ratio, the instability can be local (in between two subsequent hoops) or global (the buckling length comprises several hoop spacings). To get insight into the topic, an extensive literary research of 19 existing models has been carried out including different approaches and assumptions which yield different results. Finite element fiberanalysis was carried out to study the local buckling behavior with varying length-over-diameter and initial imperfection-over-diameter ratios. The comparison of the analytical results with some experimental results sho...
To resist strong intensity earthquakes, the design of reinforced concrete members often relies on we...
Fracture of longitudinal bars, due to high-strain low-cycle fatigue, is a common failure mode in sei...
Structural (shear) walls are used worldwide to resist gravity and earthquake loads. In many countrie...
Artículo de publicación ISIBuckling of longitudinal reinforcement in reinforced concrete (RC) column...
Buckling collapse of reinforcing bars in concrete members is usually observed in framed structures a...
Longitudinal rebar buckling has meaningful effects on reinforced concrete structures behaviour: str...
To implement Performance-Based Earthquake Engineering for reinforced concrete columns, it will be ne...
Lacking of details in existing structures, like high value of stirrups spacing, causes a bad confine...
An efficient material model was developed for reinforcing steel in reinforced concrete (RC) columns ...
Buckling of longitudinal bars in reinforced concrete (RC) members is definitely a critical issue in ...
The design of reinforced concrete structures for extreme events requires accurate predictions of the...
Collapse mechanisms of existing reinforced concrete members subjected to cyclic loading are often du...
This paper presents a mathematical model for investigating the buckling of geometrically perfect, ma...
The buckling of longitudinal reinforcing bars is a significant damage stage for reinforced concrete ...
An advanced fibre-based modelling technique is developed to characterise the non-linear flexural beh...
To resist strong intensity earthquakes, the design of reinforced concrete members often relies on we...
Fracture of longitudinal bars, due to high-strain low-cycle fatigue, is a common failure mode in sei...
Structural (shear) walls are used worldwide to resist gravity and earthquake loads. In many countrie...
Artículo de publicación ISIBuckling of longitudinal reinforcement in reinforced concrete (RC) column...
Buckling collapse of reinforcing bars in concrete members is usually observed in framed structures a...
Longitudinal rebar buckling has meaningful effects on reinforced concrete structures behaviour: str...
To implement Performance-Based Earthquake Engineering for reinforced concrete columns, it will be ne...
Lacking of details in existing structures, like high value of stirrups spacing, causes a bad confine...
An efficient material model was developed for reinforcing steel in reinforced concrete (RC) columns ...
Buckling of longitudinal bars in reinforced concrete (RC) members is definitely a critical issue in ...
The design of reinforced concrete structures for extreme events requires accurate predictions of the...
Collapse mechanisms of existing reinforced concrete members subjected to cyclic loading are often du...
This paper presents a mathematical model for investigating the buckling of geometrically perfect, ma...
The buckling of longitudinal reinforcing bars is a significant damage stage for reinforced concrete ...
An advanced fibre-based modelling technique is developed to characterise the non-linear flexural beh...
To resist strong intensity earthquakes, the design of reinforced concrete members often relies on we...
Fracture of longitudinal bars, due to high-strain low-cycle fatigue, is a common failure mode in sei...
Structural (shear) walls are used worldwide to resist gravity and earthquake loads. In many countrie...