Numerical study of the FRP-concrete bond behavior under thermal variations

IF 1.1 Q4 MECHANICS
R. Dimitri, M. Rinaldi, Francesco Tornabene, F. Micelli
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引用次数: 1

Abstract

Abstract In a context where daily and seasonal temperature changes or potential fire exposure can affect the mechanical response of structures strengthened with fiber-reinforced polymer (FRP) composites during their life cycle, the present work studies the bond behavior of FRP laminates glued to concrete substrates under a thermal variation. The problem is tackled computationally by means of a contact algorithm capable of handling both the normal and tangential cohesive responses, accounting for the effect of thermal variations on the interfacial strength and softening parameters, which defines the failure surface and post cracking response of the selected specimen. A parametric investigation is performed systematically to check for the effect of thermo-mechanical adhesive and geometrical properties on the debonding load of the FRP-to-concrete structural system. The computational results are successfully validated against some theoretical predictions from literature, which could serve as potential benchmarks for developing further thermo-mechanical adhesive models, even in a coupled sense, for other reinforcement-to-substrate systems, useful for design purposes in many engineering applications.
温度变化下FRP混凝土粘结性能的数值研究
摘要在日常和季节性的温度变化或潜在的火灾暴露会影响纤维增强聚合物(FRP)复合材料加固结构在其生命周期内的力学响应的情况下,本工作研究了粘合在混凝土基底上的FRP层压板在热变化下的粘结行为。该问题通过接触算法进行计算解决,该算法能够处理法向和切向内聚响应,考虑到热变化对界面强度和软化参数的影响,该参数定义了所选试样的破坏面和开裂后响应。系统地进行了参数研究,以检查热机械粘合剂和几何特性对FRP到混凝土结构系统的脱胶载荷的影响。计算结果与文献中的一些理论预测相比较得到了成功验证,这些理论预测可以作为开发进一步的热机械粘合剂模型的潜在基准,即使在耦合意义上,也可以用于其他增强到基底系统,在许多工程应用中可用于设计目的。
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来源期刊
CiteScore
2.60
自引率
13.30%
发文量
25
审稿时长
14 weeks
期刊介绍: The aim of Curved and Layered Structures is to become a premier source of knowledge and a worldwide-recognized platform of research and knowledge exchange for scientists of different disciplinary origins and backgrounds (e.g., civil, mechanical, marine, aerospace engineers and architects). The journal publishes research papers from a broad range of topics and approaches including structural mechanics, computational mechanics, engineering structures, architectural design, wind engineering, aerospace engineering, naval engineering, structural stability, structural dynamics, structural stability/reliability, experimental modeling and smart structures. Therefore, the Journal accepts both theoretical and applied contributions in all subfields of structural mechanics as long as they contribute in a broad sense to the core theme.
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