Impact of Bond-Slip Models on Debonding Behavior in Strengthened RC Slabs Using Recycled Waste Fishing Net Sheets.

IF 4.7 3区 工程技术 Q1 POLYMER SCIENCE
Polymers Pub Date : 2024-11-01 DOI:10.3390/polym16213093
Huy Q Nguyen, Taek Hee Han, Jun Kil Park, Jung J Kim
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引用次数: 0

Abstract

This study investigated the performance of recycled waste fishing net sheets (WSs) as a sustainable strengthening material for reinforced concrete (RC) slabs. The primary challenge addressed is the debonding failure caused by the low bond strength at the WS-to-concrete interface. To analyze this, two full-scale RC slabs-one with and one without strengthening-were cast and tested under a four-point bending setup. Finite element (FE) models incorporating existing bond-slip laws were developed using the ABAQUS software to simulate the strengthened slab's behavior. A sensitivity analysis was performed to assess the impact of bond-slip parameters on the failure mechanism. Experimental results indicated that the WS-strengthened slab enhanced the RC slab capacities by 15% in yield load and 13% in initial stiffness. Furthermore, the maximum shear stress of 0.5τmax or interfacial fracture energy of 0.2Gf, compared to values proposed by Monti et al., enabled the simulation of the global response observed in the experiment.

粘结-滑移模型对使用回收废渔网板加固的 RC 板脱胶行为的影响
本研究调查了回收废旧渔网片(WS)作为钢筋混凝土(RC)板可持续加固材料的性能。所面临的主要挑战是 WS 与混凝土界面粘结强度低所导致的脱粘失效。为了分析这一问题,我们浇筑了两块全尺寸的 RC 板,一块有加固,一块没有加固,并在四点弯曲设置下进行了测试。使用 ABAQUS 软件开发了包含现有粘结滑移定律的有限元 (FE) 模型,以模拟加固板的行为。进行了敏感性分析,以评估粘结滑移参数对破坏机制的影响。实验结果表明,WS 加固板在屈服荷载和初始刚度方面分别提高了 15% 和 13% 的 RC 板承载能力。此外,与 Monti 等人提出的数值相比,0.5τmax 的最大剪应力或 0.2Gf 的界面断裂能能够模拟实验中观察到的整体响应。
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来源期刊
Polymers
Polymers POLYMER SCIENCE-
CiteScore
8.00
自引率
16.00%
发文量
4697
审稿时长
1.3 months
期刊介绍: Polymers (ISSN 2073-4360) is an international, open access journal of polymer science. It publishes research papers, short communications and review papers. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Polymers provides an interdisciplinary forum for publishing papers which advance the fields of (i) polymerization methods, (ii) theory, simulation, and modeling, (iii) understanding of new physical phenomena, (iv) advances in characterization techniques, and (v) harnessing of self-assembly and biological strategies for producing complex multifunctional structures.
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