3D non-linear numerical model, developed to predict the mechanical behaviour of simply supported steel-concrete composite beams under three-point bending stress

Lebanese Science Journal Pub Date : 2022-06-28 DOI:10.22453/lsj-023.1.048-060

Ghenam Abada, M. Tehami, Abdelrahmane Bekkadour Benyamina

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Abstract

This paper presents a 3D non-linear numerical model, developed to predict the mechanical behaviour of simply supported steel-concrete composite beams under three-point bending stress. Using on Abaqus software a 3D model is created, which takes into account all the elements of the steel-concrete composite beam. The concrete slab, steel beam, and studs are modeled using solid elements, reinforcing bars are neglected. The geometrical and mechanical characteristics are based on beams tested in previous studies. The non-linear behaviour of steel-concrete materials is considered and the interaction between the different surfaces is taken into account. The deflection and slip results at the interface of slab and steel sections showed good agreement with experimental and analytical results. The maximum load value is close to that obtained by a plastic analysis of the composite section according to the Eurocode (1994) rules, with a relative deviation of 10%. Furthermore, the behaviour of increasing the reinforcing plate thickness on the composite beam gives an increase in maximum load and a decrease in the slip at the steel-concrete interface.

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三维非线性数值模型，用于预测钢-混凝土组合简支梁在三点弯曲应力下的力学性能

本文提出了一个三维非线性数值模型，用于预测钢-混凝土组合简支梁在三点弯曲应力作用下的力学性能。利用Abaqus软件建立了一个考虑钢-混凝土组合梁所有单元的三维模型。混凝土板、钢梁和螺柱采用实体单元建模，忽略了钢筋。几何和力学特性基于先前研究中测试的梁。考虑了钢-混凝土材料的非线性行为，并考虑了不同表面之间的相互作用。板与型钢界面处的挠度和滑移结果与实验和分析结果吻合良好。最大荷载值接近于根据欧洲规范（1994）规则对复合材料截面进行塑性分析所获得的值，相对偏差为10%。此外，增加组合梁上补强板厚度的行为会增加钢-混凝土界面处的最大荷载，减少滑移。

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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来源期刊

Lebanese Science Journal

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0.00%

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审稿时长

30 weeks