A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Load-carrying capacity of high-strength steel box-sections I: Stub columns
AbstractTo study the load-carrying capacity of thin-walled box-section stub columns fabricated by high strength steel 18Mn2CrMoBA, uniaxial compression experiments of specimens with different geometrical dimensions were carried out. Compared with the predicted values by the AISI Code, the tested load-carrying capacities of the stub columns are much greater, which suggests that the existing effective width method should not be applicable for high strength steel stub columns. The finite element analysis based on ANSYS code was employed to simulate the deformation curves and predict the load-carrying capacities. The numerical values were generally in good agreement with the experimental values. Parameter analysis was performed to investigate the ultimate strength of the high strength steel stub column. The values obtained indicate that the width–thickness ratio of the flange and the section side ratio should be the main factors to decide the ultimate strength of the stub column. Taking the width–thickness ratio and the section side ratio as parameters, a formula to predict the loading capacity of the high strength steel stub column was put forward and proved to be effective by the tested and numerical values.
Load-carrying capacity of high-strength steel box-sections I: Stub columns
AbstractTo study the load-carrying capacity of thin-walled box-section stub columns fabricated by high strength steel 18Mn2CrMoBA, uniaxial compression experiments of specimens with different geometrical dimensions were carried out. Compared with the predicted values by the AISI Code, the tested load-carrying capacities of the stub columns are much greater, which suggests that the existing effective width method should not be applicable for high strength steel stub columns. The finite element analysis based on ANSYS code was employed to simulate the deformation curves and predict the load-carrying capacities. The numerical values were generally in good agreement with the experimental values. Parameter analysis was performed to investigate the ultimate strength of the high strength steel stub column. The values obtained indicate that the width–thickness ratio of the flange and the section side ratio should be the main factors to decide the ultimate strength of the stub column. Taking the width–thickness ratio and the section side ratio as parameters, a formula to predict the loading capacity of the high strength steel stub column was put forward and proved to be effective by the tested and numerical values.
Load-carrying capacity of high-strength steel box-sections I: Stub columns
Gao, Lei (author) / Sun, Hongcai (author) / Jin, Fengnian (author) / Fan, Hualin (author)
Journal of Constructional Steel Research ; 65 ; 918-924
2008-07-02
7 pages
Article (Journal)
Electronic Resource
English
Load-carrying capacity of high-strength steel box-sections I: Stub columns
| Online Contents | 2009
Load-carrying capacity of high-strength steel box-sections I: Stub columns
| Online Contents | 2009
Load-Carrying Capacity of Damaged Steel Columns with Channel Sections
| British Library Online Contents | 1999
Compression Tests of Cold-Reduced High Strength Steel Sections. I: Stub Columns
| Online Contents | 2004