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约束构型对碳纤维增强复合材料(CFRP)包裹混凝土圆柱体抗压性能的影响

The Impact of Confinement Configurations on the Compressive Behavior of CFRP-Wrapped Concrete Cylinders.

作者信息

Babba Riad, Douadi Abdellah, Alsuhaibani Eyad, Moretti Laura, Merdas Abdelghani, Dahmani Saci, Boutlikht Mourad

机构信息

Faculty of Science and Technology, University of Tamanghasset, Tamanghasset 11001, Algeria.

Civil Engineering Research Laboratory of Sétif (LRGCS), Department of Civil Engineering, Setif 1 University-Ferhat Abbas, Sétif 19000, Algeria.

出版信息

Materials (Basel). 2025 Jul 29;18(15):3559. doi: 10.3390/ma18153559.

DOI:10.3390/ma18153559
PMID:40805437
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12348551/
Abstract

Experimental tests on confined concrete specimens are essential to characterize the mechanisms activated under varying degrees of confinement. Such characterization is critical for understanding how full, partial, and non-uniform wrapping configurations influence strength and ductility enhancements. This study investigates the compressive behavior of concrete cylinders (160 mm × 320 mm) confined using full, partial, and non-uniform carbon fiber-reinforced polymers (CFRP) configurations. In the first phase, all wrapping schemes were applied with equivalent quantities of CFRP, enabling a direct performance comparison under material parity. The results indicate that non-uniform confinement (NUC) achieved approximately 15% higher axial strength than full confinement (FC2) using the same amount of CFRP. In the second phase, the NUC configuration was tested with 25% less CFRP material, yet the reduction in strength was limited to about 3%, demonstrating its superior efficiency. A new predictive model was developed to estimate peak axial stress and strain in CFRP-confined concrete cylinders. Compared to existing models, the proposed model demonstrated greater predictive accuracy (R = 0.98 for stress and 0.91 for strain) and reduced error metrics (RMSE and scatter index). ANOVA confirmed the statistical significance of the model's predictions ( < 0.00001 for stress, = 0.002 for strain). These findings highlight the performance advantages and material efficiency of non-uniform CFRP confinement and support the utility of the proposed model as a practical design tool for developing advanced confinement strategies in structural engineering.

摘要

对约束混凝土试件进行试验测试对于表征在不同程度约束下激活的机制至关重要。这种表征对于理解完全、部分和非均匀包裹配置如何影响强度和延性增强至关重要。本研究调查了使用完全、部分和非均匀碳纤维增强聚合物(CFRP)配置约束的混凝土圆柱体(160毫米×320毫米)的抗压性能。在第一阶段,所有包裹方案都使用等量的CFRP进行应用,从而能够在材料等同的情况下进行直接性能比较。结果表明,在使用相同数量CFRP的情况下,非均匀约束(NUC)比完全约束(FC2)的轴向强度高出约15%。在第二阶段,对NUC配置使用比CFRP材料少25%的情况下进行测试,但强度降低仅限于约3%,这表明了其卓越的效率。开发了一种新的预测模型来估计CFRP约束混凝土圆柱体的峰值轴向应力和应变。与现有模型相比,所提出的模型表现出更高的预测准确性(应力的R = 0.98,应变为0.91)和降低的误差指标(RMSE和离散指数)。方差分析证实了模型预测的统计显著性(应力<0.00001,应变= 0.002)。这些发现突出了非均匀CFRP约束的性能优势和材料效率,并支持了所提出模型作为结构工程中开发先进约束策略的实用设计工具的实用性。

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本文引用的文献

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Durability and Long-Term Performance Prediction of Carbon Fiber Reinforced Polymer Laminates.碳纤维增强聚合物层压板的耐久性和长期性能预测
Polymers (Basel). 2022 Aug 5;14(15):3207. doi: 10.3390/polym14153207.
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Consideration of Critical Parameters for Improving the Efficiency of Concrete Structures Reinforced with FRP.
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Materials (Basel). 2022 Apr 9;15(8):2774. doi: 10.3390/ma15082774.
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Structural Behavior of RC Column Confined by FRP Sheet under Uniaxial and Biaxial Load.纤维增强塑料(FRP)片材约束的钢筋混凝土柱在单轴和双轴荷载作用下的结构性能
Polymers (Basel). 2021 Dec 25;14(1):75. doi: 10.3390/polym14010075.