General Stiffness Matrix for a Thin-Walled, Open-Section Beam Structure

Abdelraouf M. Sami Alsheikh, D. Rees
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引用次数: 1

Abstract

This paper is to review the theory of thin-walled beam structures of the open cross-section. There is scant information on the performance of structures made from thin-walled beam elements, particularly those of open sections, where the behavior is considerably complicated by the coupling of tensile, bending and torsional loading modes. In the combined loading theory of thin-walled structures, it is useful to mention that for a thin-walled beam, the value of direct stress at a point on the cross-section depends on its position, the geometrical properties of the cross-section and the applied loading. This applies whether the thin-walled section is closed or open but this study will be directed primarily at the latter. Theoretical analyses of structures are fairly well established, considered in multi-various applications by many scientists. However, due to the present interest in lightweight structures, it is necessary to specify where the present theory lies. It does not, for example, deal with compression and the consequent failure modes under global and local buckling. Indeed, with the inclusion of strut buckling failure and any other unfo-reseen collapse modes, the need was perceived for further research into the subject. Presently, a survey of the published works has shown in the following: 1) The assumptions used in deriving the underlying theory of thin-walled beams are not clearly stated or easily understood; 2) The transformations of a load system from arbitrary axis to those at the relevant centre of rotation are incomplete. Thus, an incorrect stress distribution may result in; 3) Several methods are found in the recent literature for analyzing the behaviour of thin-walled open section beams under combined loading. These reveal cross-section of a thin-walled beam. A general transformation matrix that accounts for a load system applied at an arbitrary point on the cross-section will be published in a future paper.
薄壁开截面梁结构的一般刚度矩阵
本文对开截面薄壁梁结构的理论进行了综述。关于薄壁梁构件的结构性能的信息很少,特别是那些开截面的结构,其性能由于拉伸、弯曲和扭转载荷模式的耦合而相当复杂。在薄壁结构的组合加载理论中,有必要指出,对于薄壁梁,截面上一点的直接应力值取决于其位置、截面的几何特性和施加的载荷。这适用于薄壁截面是封闭的还是开放的,但本研究将主要针对后者。结构的理论分析是相当成熟的,被许多科学家考虑在多种不同的应用中。然而,由于目前对轻量化结构的兴趣,有必要说明目前的理论所在。例如,它没有处理整体和局部屈曲下的压缩和随之而来的破坏模式。事实上,由于包含了支撑屈曲破坏和任何其他未观察到的破坏模式,因此需要进一步研究该主题。目前,对已发表的著作的调查表明:1)在推导薄壁梁的基础理论时所使用的假设没有明确说明或容易理解;2)载荷系统从任意轴到相应旋转中心的转换是不完全的。因此,不正确的应力分布可能导致;3)在最近的文献中发现了几种方法来分析薄壁开截面梁在联合荷载作用下的性能。这些图显示了薄壁梁的截面。在将来的论文中,我们将给出一个适用于横截面上任意一点的荷载系统的一般变换矩阵。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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