论文信息 - Imperfection, residual stress and yield slenderness limit of very high strength (VHS) circular steel tubes

Imperfection, residual stress and yield slenderness limit of very high strength (VHS) circular steel tubes

This paper investigates the initial geometrical imperfection, residual stresses and yield slenderness limit of very high strength (VHS) circular steel tubes with the yield stress of 1350 MPa. The out-of-straightness is found to be about L/6800 on average, where L is the length of the stub column. The measured residual stress is found to be approximately 4% on average of the yield stress, with the outside surface in compression and the inside surface in tension. Eight stub columns were tested with the element slenderness ratio ranging from 135 to 258. New element slenderness limit (ley) of 258 and non-dimensional local buckling parameter limit of 3.1 are proposed for VHS tubes. The very large value of ley is obtained partly because of the very large yield stress used in the definition of element slenderness and partly because of the very low residual stress in the section. Two stub columns of non-heat-treated tubes were also tested in the same manner. The results were compared with those of the VHS tubes. Both VHS tubes and non-heat-treated tubes have a similar level of geometrical imperfections. The residual stress pattern obtained for non-heat-treated tubes is very different from that of VHS tubes.  2002 Elsevier Science Ltd. All rights reserved.

Hui Jiao | Xiao Ling Zhao | X. Zhao | H. Jiao | X. Zhao

[1] Xiao Ling Zhao,et al. Section capacity of very high strength (VHS) circular tubes under compression , 2000 .

[2] N. Tebedge,et al. Residual-stress measurement by the sectioning method , 1973 .

[3] Kim J.R. Rasmussen,et al. Plate slenderness limits for high strength steel sections , 1992 .

[4] D. Sherman. Residual Stress Measurement in Tubular Members , 1969 .

[5] C. R. Calladine,et al. Understanding imperfection-sensitivity in the buckling of thin-walled shells , 1995 .

[6] Gregory J. Hancock,et al. Cold-formed steel structures , 2003 .

[7] G J Hancock,et al. AN EXPERIMENTAL INVESTIGATION OF THE COLUMN BEHAVIOUR OF COLD FORMED SQUARE HOLLOW SECTIONS , 1985 .

[8] W. F. Chen,et al. The Axial Strength and Behavior of Cylindrical Columns , 1977 .

[9] Hui Jiao,et al. Material ductility of very high strength (VHS) circular steel tubes in tension , 2001 .

[10] L. Donnell,et al. Effect of Imperfections on Buckling of Thin Cylinders and Columns under Axial Compression , 1950 .

[11] Charles G. Schilling. Buckling Strength of Circular Tubes , 1965 .

[12] P. C. Birkemoe,et al. BEAM-COLUMN BEHAVIOR OF FABRICATED STEEL TUBULAR MEMBERS , 1992 .

[13] L. S. Beedle,et al. RESIDUAL STRESS AND THE COMPRESSIVE STRENGTH OF STEEL , 1953 .

[14] Russell Q. Bridge,et al. Local buckling of thin-walled circular steel sections with or without internal restraint , 1997 .