论文信息 - Flexural strength analysis of non-post-tensioned and post-tensioned concrete-filled circular steel tubes

Flexural strength analysis of non-post-tensioned and post-tensioned concrete-filled circular steel tubes

Abstract Concrete-filled circular steel tubes (CFT) have recently gained significant attention for their enhanced strength and ductility over the conventional steel and reinforced concrete construction. The concrete compressive strength is significantly increased by the lateral confinement provided by the steel tube and local buckling of the steel tube is restrained by the concrete infill. This paper investigates the further enhancement of these composite actions due to post-tensioning the concrete cores inside circular steel tubes. The flexural behavior of a post-tensioned CFT as well as a non-post-tensioned CFT was studied experimentally and analytically. A numerical algorithm for predicting the moment capacities of circular CFT, with or without the post-tensioning effects, has been validated against the test results by the authors as well as those published in the literature.

[1] Robert Park,et al. Axial Load Design for Concrete Filled Steel Tubes , 1970 .

[2] D. J. Laurie Kennedy,et al. THE FLEXURAL BEHAVIOUR OF CONCRETE-FILLED HOLLOW STRUCTURAL SECTIONS , 1994 .

[3] J. Mander,et al. Theoretical stress strain model for confined concrete , 1988 .

[4] Jun Kawaguchi,et al. Experimental Study of Scale Effects on the Compressive Behavior of Short Concrete-Filled Steel Tube Columns , 2002 .

[5] Lin-Hai Han,et al. Flexural behaviour of concrete-filled steel tubes , 2004 .

[6] C. Dale Buckner,et al. Composite Construction in Steel and Concrete , 1958 .

[7] Christopher Y. Tuan. Aurora arch bridge , 2004 .

[8] John B. Mander,et al. Observed Stress‐Strain Behavior of Confined Concrete , 1988 .

[9] Lin-Hai Han,et al. Further Study on the Flexural Behaviour of Concrete-filled Steel Tubes , 2006 .

[10] Mark A. Bradford,et al. Slenderness limits for filled circular steel tubes , 2002 .

[11] Den Hartog. Advanced Strength of Materials , 1952 .

[12] F. E. Richart,et al. A study of the failure of concrete under combined compressive stresses , 1928 .

[13] Robert Park,et al. Strength of Concrete Filled Steel Tubular Columns , 1969 .

[14] Raphael H. Grzebieta,et al. Concrete-filled circular steel tubes subjected to pure bending , 2001 .

[15] Robert Park,et al. Confining Reinforcement for Concrete Columns , 1994 .