A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
08.46: Local buckling of thin‐walled tubes encased in concrete
Local buckling of concrete‐filled tubes has been studied by several researchers these recent years, due to the evidence that the limits provided by the Eurocode for considering local buckling in steel tubular sections are clearly non‐conservative when taking the confinement effect of concrete into account. Lateral pressure coming from concrete when loading both components at the same time in CFT sections leads to reduce the stability of the cylindrical shell in terms of local buckling, since it is subjected to a vertical and lateral pressure at the same time. However, this phenomenon has exactly the opposite effect when the encased component is the steel tube; this is the case of the concrete‐encased tubes, a very interesting typology for its mechanical and fire response. In these sections, the encased tube is subjected to a uniform compressive pressure from outside that clearly enhances the stability of the shell. This study presents a numerical and analytical approach to local buckling in these sections, by using a complex numerical model calibrated with real thick‐walled previous experiments. The conclusions of this text pretend to describe the efficiency of these sections in terms of local buckling, and to fix the base for a wide experimental and numerical campaign to determine how each parameter influences to the mechanical response.
08.46: Local buckling of thin‐walled tubes encased in concrete
Local buckling of concrete‐filled tubes has been studied by several researchers these recent years, due to the evidence that the limits provided by the Eurocode for considering local buckling in steel tubular sections are clearly non‐conservative when taking the confinement effect of concrete into account. Lateral pressure coming from concrete when loading both components at the same time in CFT sections leads to reduce the stability of the cylindrical shell in terms of local buckling, since it is subjected to a vertical and lateral pressure at the same time. However, this phenomenon has exactly the opposite effect when the encased component is the steel tube; this is the case of the concrete‐encased tubes, a very interesting typology for its mechanical and fire response. In these sections, the encased tube is subjected to a uniform compressive pressure from outside that clearly enhances the stability of the shell. This study presents a numerical and analytical approach to local buckling in these sections, by using a complex numerical model calibrated with real thick‐walled previous experiments. The conclusions of this text pretend to describe the efficiency of these sections in terms of local buckling, and to fix the base for a wide experimental and numerical campaign to determine how each parameter influences to the mechanical response.
08.46: Local buckling of thin‐walled tubes encased in concrete
Albareda‐Valls, Albert (author) / Carreras, Jordi Maristany (author) / Carrera, David Garcia (author)
ce/papers ; 1 ; 2210-2219
2017-09-01
10 pages
Article (Journal)
Electronic Resource
English
Local Buckling of Square Thin-Walled Steel Tubes Filled With Concrete
| British Library Conference Proceedings | 1996
Local buckling of square thin-walled steel tubes with concrete infill
| British Library Conference Proceedings | 1995
Buckling of Encased Elliptic Thin Ring
| Online Contents | 1997
Buckling of Encased Elliptic Thin Ring
| Online Contents | 1995
Buckling of Encased Elliptic Thin Ring
| Online Contents | 1997