使用ATENA Science的剪切临界模型，轻钢筋混凝土t梁与外部粘结CFRP

Civil Engineering Dimension Pub Date : 2023-09-13 DOI:10.9744/ced.25.2.67-77

Fillbert Hanselly Njoko, Asdam Tambusay, Andrew Jamieson, Benny Suryanto, Priyo Suprobo

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引用次数: 0

摘要

本文采用ATENA软件对u包碳纤维布加固的受剪临界钢筋混凝土梁进行了有限元建模。在涂抹裂缝和破碎带方法的背景下实现的断裂塑性本构模型被用来表示混凝土的非线性行为。CFRP u -wrap被建模为涂抹钢筋，并使用界面元素与混凝土表面结合，考虑适当的粘合性能。为此，对Brindley在2018年进行的试验中的两个大型轻钢筋混凝土t梁进行了分析，并提出了荷载-挠度响应和破坏模式的预测，以证明模型的准确性。此外，还进行了参数分析，以评估CFRP u -wrap加固劣化构件的有效性。结果表明，梁的响应可以准确地预测，成功地捕获了实验观察到的脆性剪切破坏模式。研究还表明，碳纤维布u型包层对降低临界剪力梁的脆性有一定的作用。

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Modelling of Shear-critical, Lightly Reinforced Concrete T-beams with Externally Bonded CFRP using ATENA Science

This paper presents the finite element modelling of shear-critical reinforced concrete beams strengthened with U-wrapped CFRP fabrics using ATENA. Fracture-plastic constitutive models, implemented in the context of smeared crack and crush-band approach, were employed to represent the nonlinear behaviours of concrete. CFRP U-wraps were modelled as smeared reinforcement and bonded to the concrete surface using an interface element, considering appropriate bond properties. To this end, two large lightly reinforced concrete T-beams from tests undertaken by Brindley in 2018 were analysed and predictions of the load-deflection response and failure mode are presented to demonstrate the accuracy of the modelling. Moreover, parametric analyses were performed to assess the effectiveness of CFRP U-wraps for strengthening deteriorated members. It is shown that the response of the beams can be predicted accurately, capturing successfully the brittle shear failure mode observed experimentally. It is also shown that CFRP U-wraps are useful for reducing the brittleness of shear-critical beams.

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来源期刊

Civil Engineering Dimension

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审稿时长

24 weeks