The axial capacity of a full height rectangular opening castellated steel beam with steel reinforcement stiffeners

Journal of Advanced Civil and Environmental Engineering Pub Date : 2021-05-31 DOI:10.30659/JACEE.4.1.51-59

A. M. Rusli, Prabowo Setiawan

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Abstract

The axial capacity of a full height rectangular opening castellated steel beam with steel reinforcement stiffeners is proven to prevent Vierendeel failure mechanism. The effect is an increase in flexural capacity of the structure. Diameter of the steel reinforcement stiffeners is revealed to have an effect on its strength in resisting axial forces occur in the structure. However, size of the diameter is limited to the strength maximum value of the steel flange section in withstanding the moment force. Using optimal design of the castellated steel structure, this research aimed to find out the increase value of the axial capacity. There were two models of steel structures employed in the study, IWF 200x100x5.5x8 and castellated beam 362x100x5.5x8, both were loaded with axial directions. Analyses were conducted using truss and pushover methods. Results of the study showed an increase in both flexural (36.81%) and axial (60.78%) capacities. The increase in the value of structure capacity mainly influenced by the stiffeners shortened the effective length of the structure.

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带钢筋加劲筋的全高矩形开口城堡式钢梁的轴向承载力

验证了钢筋加劲全高矩形开孔槽形钢梁的轴向承载力可防止竖向破坏机制。其效果是增加了结构的抗弯能力。钢筋加劲筋直径对结构抗轴力的强度有一定的影响。然而，直径的大小受限于钢法兰截面在承受弯矩力时的强度最大值。本研究通过对城堡钢结构进行优化设计，找出其轴向承载力的增加值。本研究采用两种钢结构模型，IWF 200x100x5.5x8和城堡梁362x100x5.5x8，均为轴向荷载。采用桁架法和推覆法进行了分析。研究结果表明，弯曲能力(36.81%)和轴向能力(60.78%)均有提高。结构承载力值的增大主要受加筋的影响，使结构有效长度缩短。

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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Journal of Advanced Civil and Environmental Engineering

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