Evaluation of the strain response of FRP partially confined concrete using FEM and DIC testing

IF 3.5 Q1 ENGINEERING, MULTIDISCIPLINARY International Journal of Structural Integrity Pub Date : 2024-01-09 DOI:10.1108/ijsi-11-2023-0112
Yunfei Zou
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Abstract

PurposeThis study aims to enhance the understanding of fiber-reinforced polymer (FRP) applications in partially confined concrete, with a specific focus on improving economic value and load-bearing capacity. The research addresses the need for a more comprehensive analysis of non-uniform vertical strain responses and precise stress–strain models for FRP partially confined concrete.Design/methodology/approachDIC and strain gauges were employed to gather data during axial compression tests on FRP partially confined concrete specimens. Finite element analysis using ABAQUS was utilized to model partial confinement concrete with various constraint area ratios, ranging from 0 to 1. Experimental findings and simulation results were compared to refine and validate the stress–strain model.FindingsThe experimental results revealed that specimens exhibited strain responses characterized by either hardening or softening in both vertical and horizontal directions. The finite element analysis accurately reflected the relationship between surface constraint forces and axial strains in the x, y and z axes under different constraint area ratios. A proposed stress–strain model demonstrated high predictive accuracy for FRP partially confined concrete columns.Practical implicationsThe stress–strain curves of partially confined concrete, based on Teng's foundation model for fully confined stress–strain behavior, exhibit a high level of predictive accuracy. These findings enhance the understanding of the mechanical behavior of partially confined concrete specimens, which is crucial for designing and assessing FRP confined concrete structures.Originality/valueThis research introduces innovative insights into the superior convenience and efficiency of partial wrapping strategies in the rehabilitation of beam-column joints, surpassing traditional full confinement methods. The study contributes methodological innovation by refining stress–strain models specifically for partially confined concrete, addressing the limitations of existing models. The combination of experimental and simulated assessments using DIC and FEM technologies provides robust empirical evidence, advancing the understanding and optimization of FRP-concrete structure performance. This work holds significance for the broader field of concrete structure reinforcement.
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利用有限元和 DIC 测试评估 FRP 部分约束混凝土的应变响应
目的 本研究旨在加强对纤维增强聚合物 (FRP) 在局部约束混凝土中应用的了解,特别关注提高经济价值和承载能力。该研究满足了对非均匀垂直应变响应进行更全面分析的需求,并为玻璃纤维增强聚合物局部约束混凝土建立了精确的应力-应变模型。使用 ABAQUS 进行有限元分析,以 0 至 1 的不同约束面积比建立部分约束混凝土模型。实验结果表明,试样在垂直和水平方向上表现出硬化或软化的应变反应。有限元分析准确反映了不同约束面积比下表面约束力与 x、y 和 z 轴轴向应变之间的关系。基于 Teng 的全约束应力应变行为基础模型的局部约束混凝土应力应变曲线具有很高的预测精度。这些发现加深了对部分约束混凝土试件力学行为的理解,这对于设计和评估玻璃钢约束混凝土结构至关重要。 原创性/价值这项研究提出了创新性见解,即部分包裹策略在梁柱连接修复中具有优越的便利性和效率,超过了传统的全约束方法。该研究通过改进应力-应变模型,特别是针对部分约束混凝土的应力-应变模型,解决了现有模型的局限性,为方法论的创新做出了贡献。使用 DIC 和 FEM 技术进行的实验和模拟评估相结合,提供了可靠的经验证据,促进了对 FRP 混凝土结构性能的理解和优化。这项工作对更广泛的混凝土结构加固领域具有重要意义。
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来源期刊
International Journal of Structural Integrity
International Journal of Structural Integrity ENGINEERING, MULTIDISCIPLINARY-
CiteScore
5.40
自引率
14.80%
发文量
42
期刊最新文献
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