Investigation of the behaviour of adhesively bonded joints between timber and self-compacting concrete

IF 2.2 4区 工程技术 Q2 ENGINEERING, CIVIL
Mohammed Shehada, Zakaria Ilyes Djamaï, Frédéric Duprat
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Abstract

AbstractComposite constructions made of wood and concrete are being researched as revolutionary structural components that offer many benefits. The connection in timber-concrete-composite (TCC) is typically made via mechanical means. This study describes the TCC bonded by adhesives, particularly the mechanical behaviour of the joints between timber (GL24h) and self-compacting concrete (SCC) set by the dry or wet bonding process. For this purpose, double push-out shear tests on TCC joints bonded by epoxy resin of adhesives were performed. The role of several variables was considered for both fabrication processes. These parameters were: variation of moisture content (m.c.) of timber, adhesive type, adhesive thickness, sand addition, concrete surface treatment, and scale of bonding length. The results showed that glueing seems to be a feasible alternative instead of mechanical means for producing dry and wet TCC joints. Under dry conditions of timber elements, the shear strength can be considered highly satisfactory, with a mean value range of 6–8 MPa. The failure mode is primarily affected by concrete and timber failure. However, the findings of this study confirm the hypothesis that increasing the moisture content of timber before the gluing process significantly reduces the shear strength of adhesively bonded TCC joints by approximately 30% in certain instances. These results contribute to understanding the challenges and limitations of the bonding system, providing valuable insights for optimizing the design and manufacturing of timber-concrete composites.Keywords: Timber-concrete compositesshear strengthpush-out testepoxy adhesive bonding AcknowledgementsThe authors would like to thank and acknowledge technicians from the National Institute of Applied Sciences of Toulouse, and GA Smart Building Co., for their assistance during the experimental works. The appreciation would also be extended to SIKA Co. for gracefully supplying resins and discussing the mechanical performance of used resins.Disclosure statementThe authors have no competing interests to declare that are relevant to the content of this article.Data availability statementThe raw data required to reproduce these findings are available from the corresponding author upon reasonable request.Additional informationFundingThe research was financially supported by the GA Smart Building Co.
木材与自密实混凝土粘结接头性能的研究
摘要由木材和混凝土组成的复合结构作为具有许多优点的革命性结构构件正在被研究。木-混凝土复合材料(TCC)的连接通常是通过机械手段进行的。本研究描述了胶粘剂粘合的TCC,特别是木材(GL24h)和自密实混凝土(SCC)之间的接缝的机械行为,这些接缝是由干或湿粘合过程设置的。为此,对环氧树脂胶粘剂粘结的TCC接头进行了双推力剪切试验。考虑了两个制造过程中几个变量的作用。这些参数是:木材含水率变化、胶粘剂类型、胶粘剂厚度、加砂量、混凝土表面处理、粘接长度尺度。结果表明,胶合似乎是一种可行的替代机械手段,以生产干湿TCC接头。在木材构件干燥条件下,抗剪强度可以认为是非常令人满意的,其平均值范围为6 - 8mpa。破坏模式主要受混凝土和木材破坏的影响。然而,本研究的结果证实了一个假设,即在粘合过程之前增加木材的含水率,在某些情况下会显著降低粘接TCC接头的抗剪强度,降低幅度约为30%。这些结果有助于理解粘合系统的挑战和局限性,为优化木-混凝土复合材料的设计和制造提供有价值的见解。关键词:木结构-混凝土复合材料;抗剪强度;推出试验;环氧胶粘接致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢致谢感谢西卡公司提供的树脂,并讨论了废旧树脂的机械性能。声明作者没有与本文内容相关的竞争利益需要声明。数据可用性声明复制这些发现所需的原始数据可在合理要求下从通讯作者处获得。本研究由GA智能建筑公司提供资金支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
European Journal of Environmental and Civil Engineering
European Journal of Environmental and Civil Engineering ENGINEERING, CIVIL-ENGINEERING, GEOLOGICAL
CiteScore
4.80
自引率
4.80%
发文量
153
审稿时长
6 months
期刊介绍: The European Research Area has now become a reality. The prime objective of the EJECE is to fully document advances in International scientific and technical research in the fields of sustainable construction and soil engineering. In particular regard to the latter, the environmental preservation of natural media (soils and rocks) and the mitigation of soil-related risks are now not only major societal challenges, but they are also the source of scientific and technical developments that could be extremely beneficial.
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