Self-Consolidated Concrete-to-Conductive Concrete Interface: Assessment of Bond Strength and Mechanical Properties

IF 4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Fibers Pub Date : 2023-12-04 DOI:10.3390/fib11120106
Mohammed EL-Afandi, S. Yehia, T. Landolsi, Nasser Qaddoumi, Mohamed Elchalakani
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Abstract

In this paper, the mechanical properties and bond strength of composite samples that consist of a conductive concrete (CC) layer and a self-consolidated concrete (SCC) layer are investigated. The bond strength study includes two parameters: (1) surface preparation and (2) casting and testing directions. The surface preparation study shows that, compared to the other methods in this study, the shear key method is the most suitable surface preparation method to fully utilize the CC in a composite. Moreover, the casting direction study reveals that the strength is heavily dependent on the type of test used along with CC’s layer positioning. The flexural strength study confirms that positioning the CC mix in the tensile region is beneficial since it can increase the flexural strength of a structure because of the hybrid steel fibers included in the mixture. Finally, different codes/specifications and published theoretical results are used to predict the CC’s mechanical properties, and the predictions are not as accurate as the SCC predictions, which can be attributed to the presence of conductive fillers in the CC mix.
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自密实混凝土与导电混凝土界面:粘结强度和机械性能评估
本文研究了导电混凝土(CC)层和自固结混凝土(SCC)层组成的复合材料的力学性能和粘结强度。结合强度研究包括两个参数:(1)表面处理;(2)铸造和测试方向。表面制备研究表明,与本研究的其他方法相比,剪切键法是最适合在复合材料中充分利用CC的表面制备方法。此外,铸造方向研究表明,强度在很大程度上取决于所使用的试验类型以及CC层的定位。抗弯强度研究证实,将CC混合料置于拉伸区域是有益的,因为混合料中含有混杂钢纤维,可以提高结构的抗弯强度。最后,使用不同的规范/规范和已发表的理论结果来预测CC的力学性能,预测结果不如SCC预测准确,这可归因于CC混合料中导电填料的存在。
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
Fibers
Fibers Engineering-Civil and Structural Engineering
CiteScore
7.00
自引率
7.70%
发文量
92
审稿时长
11 weeks
期刊介绍: Fibers (ISSN 2079-6439) is a peer-reviewed scientific journal that publishes original articles, critical reviews, research notes and short communications on the materials science and all other empirical and theoretical studies of fibers, providing a forum for integrating fiber research across many disciplines. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Electronic files or software regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material. The following topics are relevant and within the scope of this journal: -textile fibers -natural fibers and biological microfibrils -metallic fibers -optic fibers -carbon fibers -silicon carbide fibers -fiberglass -mineral fibers -cellulose fibers -polymer fibers -microfibers, nanofibers and nanotubes -new processing methods for fibers -chemistry of fiber materials -physical properties of fibers -exposure to and toxicology of fibers -biokinetics of fibers -the diversity of fiber origins
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