Ultimate and post-ultimate behaviour of thin-walled cold-formed steel open-section members under eccentric compression. Part I: Collapse mechanisms database (theoretical study)

Abstract The Eurocode 3 concerning thin-walled steel members divides members subjected to compression into four classes, considering their ductility. The representatives of the class C4 are short bars, for which the load-capacity corresponds to the maximum compression stresses less than the yield stress. There are bars prone to local buckling in the elastic range and they do not have a real post-elastic capacity. The failure at ultimate stage of such members, either in compression or bending, always occurs by forming a local plastic mechanism. This fact suggests the possibility to use the local plastic mechanism to characterise the ultimate strength of such members. The present paper is based on previous studies and some latest investigations of the authors, as well as the literature collected data. It represents an attempt to study the plastic mechanisms for members in eccentric compression about minor axis and the evolution of plastic mechanisms, considering several types of lipped channel sections.

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Torsional Post-Buckling of a Simply Supported Thin-Walled Open-Section Beam Resting on a Two-Parameter Foundation

Прикладная механика и техническая физика ◽

10.15372/pmtf20180122 ◽

2018 ◽

Keyword(s):

Simply Supported ◽

Open Section ◽

Post Buckling ◽

Thin Walled ◽

Two Parameter

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Mechanical characteristics and comfort evaluation under pedestrian vertical excitation of a thin-walled cold-formed steel footbridge

IOP Conference Series Materials Science and Engineering ◽

10.1088/1757-899x/1028/1/012008 ◽

2021 ◽

Vol 1028 ◽

pp. 012008

Author(s):

Jing Xu ◽

Xijun Chen ◽

Jing Li ◽

Zeyu Li

Keyword(s):

Mechanical Characteristics ◽

Vertical Excitation ◽

Comfort Evaluation ◽

Cold Formed Steel ◽

Thin Walled

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Pretwisted Curved Beams of Thin-Walled Open Section

Journal of Applied Mechanics ◽

10.1115/1.3422788 ◽

1972 ◽

Vol 39 (3) ◽

pp. 779-785 ◽

Cited By ~ 2

Author(s):

A. I. Soler

Keyword(s):

Numerical Technique ◽

Equations Of Motion ◽

Highway Bridges ◽

Major Effect ◽

Curved Beams ◽

Open Section ◽

Straight Beam ◽

Thin Walled ◽

Bending Modes ◽

Axes Of Symmetry

Equations of motion are derived for coupled extension, flexure, and torsion of pretwisted curved bars of thin-walled, open section. The derivation is based on energy principles and includes inertia terms. The major effect of initial pretwist is to allow coupling of all possible beam deformation modes; however, if the bar is straight and has two axes of symmetry, pretwist causes coupling only between the two bending modes, and between extension and torsion. The governing equations are presented in first-order form, and a numerical technique is suggested for the case of space varying pretwist. It is suggested that these equations may form the basis for a simplified study of the effect of superelevation on the static and dynamic response of curved highway bridges. Finally, a simple straight beam with uniform pretwist is studied to compare effects of pretwist and restrained torsion in a thin-walled beam of open section.

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Energy Absorption of Origami Crash Box: Numerical Simulation and Theoretical Analysis

Volume 5B: 42nd Mechanisms and Robotics Conference ◽

10.1115/detc2018-86261 ◽

2018 ◽

Cited By ~ 1

Author(s):

Mengyan Shi ◽

Jiayao Ma ◽

Yan Chen ◽

Zhong You

Keyword(s):

Energy Absorption ◽

Theoretical Study ◽

Low Cost ◽

Deformation Mode ◽

Absorption Efficiency ◽

Great Promise ◽

Good Match ◽

Energy Absorption Efficiency ◽

Thin Walled ◽

Initial Peak

Thin-walled tubes as energy absorption devices are widely in use for their low cost and high manufacturability. Employing origami technique on a tube enables induction of a predetermined failure mode so as to improve its energy absorption efficiency. Here we study the energy absorption of a hexagonal tubular device named the origami crash box numerically and theoretically. Numerical simulations of the quasi-static axial crushing show that the pattern triggers a diamond-shaped mode, leading to a substantial increase in energy absorption and reduction in initial peak force. The effects of geometric parameters on the performance of the origami crash box are also investigated through a parametric study. Furthermore, a theoretical study on the deformation mode and energy absorption of the origami crash box is carried out, and a good match with numerical results is obtained. The origami crash box shows great promise in the design of energy absorption devices.

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