Numerical Analysis of Sectional Shape Effect on Behavior of Short Concrete Columns

Wasit Journal of Engineering Sciences Pub Date : 2024-01-05 DOI:10.31185/ejuow.vol12.iss1.524

Adil Mahdi Jabbar, Lubna Salim Danha, Qais Abdulmajeed Hasan

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Abstract

Abstract This paper numerically investigates the effect of sectional shape on the structural behavior of short concrete columns when subjected to axial loading. Seven concrete columns that possess the same cross-sectional area, longitudinal reinforcement ratio, tie-bar diameter, and spacing are analysed via Abaqus software. The concrete compressive strength is equal for all columns. The loading is applied at the plastic centroid of the cross-section. The results show that the plus-shaped cross-sectional column sustains the highest load, while the T-shaped section bears the lowest loading. The plus-shaped, square, rectangular, and circular columns endure a higher loading than the T-shaped ones by 12.3 %, 10.7 %, 10.7 %, and 8.7 %, respectively. Concerning the longitudinal displacement, the T-shaped column exhibits the highest shortening, while the octagonal section shows the minimum shortening. Failure of all columns occurs due to the yielding of the longitudinal bars, followed by a fracturing of the concrete. All columns roughly show the same cracking load, while the T-shaped section exhibits a higher displacement than others at the cracking state, followed by an L-shaped column. However, all other columns show the same longitudinal displacement at the cracking load.

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截面形状对短混凝土柱行为影响的数值分析

摘要本文通过数值方法研究了短混凝土柱在承受轴向荷载时截面形状对其结构行为的影响。通过 Abaqus 软件对截面面积、纵向配筋率、拉杆直径和间距相同的七根混凝土柱进行了分析。所有柱子的混凝土抗压强度相同。荷载施加在横截面的塑性中心点。结果表明，正方形截面柱承受的荷载最大，而 T 形截面承受的荷载最小。正方形、方形、矩形和圆形柱承受的荷载分别比 T 形柱高 12.3%、10.7%、10.7% 和 8.7%。在纵向位移方面，T 型柱的缩短量最大，而八角形截面的缩短量最小。所有柱子的破坏都是由于纵向钢筋屈服，然后混凝土断裂。所有柱子的开裂荷载大致相同，而 T 型截面在开裂状态下的位移比其他柱子大，其次是 L 型柱子。然而，所有其他柱子在开裂荷载下都表现出相同的纵向位移。

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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Wasit Journal of Engineering Sciences

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