Effects of Tire Crumb Rubber and Steel Fiber on Punching Shear Behavior of Two-way Alkali-activated Concrete Flat Slabs

IF 1.4 4区工程技术 Q3 ENGINEERING, CIVIL

Periodica Polytechnica-Civil Engineering Pub Date : 2023-10-04 DOI:10.3311/ppci.21990

Necip Altay Eren, Abdulkadir Çevik

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引用次数: 0

Abstract

As a result of the rapid increase in the demand for transportation vehicles recently, the accumulation of waste tires causes environmental problems. One of the methods that can contribute to the reduction of this environmental problem is the recycling of waste tires as a construction material in aggregate form. This research investigated the impacts of waste tire crumb rubber with/out steel fiber (SF) on the two-way punching-shear behavior alkali-activated concrete (AAC) flat slabs and performed center point load tests. In the study, one-type of SF and two kinds of scrap tire waste i.e., crumb rubber (CR) and tire particles, were used on the producing of rubberized AAC slabs obtained by 100% as binder made of ground-granulated blast furnace slag (GGBFS). Also, while both fine crumb rubber (FCR) and coarse crumb rubber (CCR) were used together in the AAC slabs, tire crumb rubber (TCR) was used alone at the same proportion. Additionally, the fine aggregate was substituted with 10% and 15% FCR and CCR, and coarse aggregate was substituted with TCR in the same proportions. Additionally, AAC slabs with recycled tire rubber (RTR) were produced as fibrous and non-fibrous using 1% by volume hook-end SF. In total, nine AAC slabs with sizes of 50 x 50 x 6 cm3 were manufactured for the study. Experimental data showed that the inclusion of RTR only slightly reduced the punching shear strength of AAC slabs and the punching shear strength of the slabs increased when SF was added to the mixtures containing RTR.

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轮胎橡胶渣和钢纤维对双向碱活化混凝土平板冲剪性能的影响

近年来，由于交通运输车辆需求量的迅速增加，废旧轮胎的堆积造成了环境问题。其中一个方法，可以有助于减少这种环境问题是回收废旧轮胎作为建筑材料的骨料形式。研究了废轮胎橡胶渣掺/脱钢纤维(SF)对碱活化混凝土平板双向冲剪性能的影响，并进行了中心点荷载试验。本研究以1种硫化橡胶和2种废轮胎废料，即橡胶屑(CR)和轮胎颗粒，作为磨粒高炉渣(GGBFS)的粘结剂，用于生产100%的硫化AAC板。细粒橡胶(FCR)和粗粒橡胶(CCR)在AAC板中同时使用，轮胎橡胶(TCR)按相同比例单独使用。细骨料分别用10%和15%的FCR和CCR替代，粗骨料用相同比例的TCR替代。此外，AAC板与再生轮胎橡胶(RTR)生产纤维和非纤维使用1%的体积钩端SF。总共制造了9块AAC板，尺寸为50 x 50 x 6 cm3。实验数据表明，RTR的掺入对AAC板的冲切抗剪强度仅略有降低，而在含RTR的混合物中加入SF后，AAC板的冲切抗剪强度有所提高。

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

Periodica Polytechnica-Civil Engineering 工程技术-工程：土木

CiteScore

3.40

自引率

16.70%

发文量

审稿时长

12 months

期刊介绍： Periodica Polytechnica Civil Engineering is a peer reviewed scientific journal published by the Faculty of Civil Engineering of the Budapest University of Technology and Economics. It was founded in 1957. Publication frequency: quarterly. Periodica Polytechnica Civil Engineering publishes both research and application oriented papers, in the area of civil engineering. The main scope of the journal is to publish original research articles in the wide field of civil engineering, including geodesy and surveying, construction materials and engineering geology, photogrammetry and geoinformatics, geotechnics, structural engineering, architectural engineering, structural mechanics, highway and railway engineering, hydraulic and water resources engineering, sanitary and environmental engineering, engineering optimisation and history of civil engineering. The journal is abstracted by several international databases, see the main page.