Effect of Recycled Concrete Aggregates on the Concrete Breakout Resistance of Headed Bars Embedded in Slender Structural Elements

Buildings Pub Date : 2024-07-09 DOI:10.3390/buildings14072102

Maurício de Pina Ferreira, Karoline Dantas dos Santos, Manoel J.M. Pereira Filho, Luciana de Nazaré Pinheiro Cordeiro

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Abstract

Recycled concrete aggregates are potentially interesting for the precast concrete industry as they provide a new use for high-quality waste from its products’ life cycle. In precast concrete structures, it is common to use headed bars in several connection types between structural members. This paper presents the results of experimental tests to investigate the impact of replacing coarse natural aggregates with coarse recycled concrete aggregates in the concrete breakout strength of cast-in headed bars embedded in slender structural elements. Results of 12 tests on 16 mm headed bars embedded in 500 × 200 × 900 mm concrete members with an effective embedment depth of 110 mm are presented. The percentage of replacement of natural aggregates by recycled concrete aggregates was 0%, 30%, and 100%, and the flexural reinforcement ratio of the structural elements varied from 0.5% to 3.5%. The behavior and strength of the tested specimens are discussed, and comparisons with theoretical strength estimates are presented. The results showed that the concrete breakout strength of the headed bars was not affected by the use of recycled concrete aggregates and that the flexural reinforcement ratio significantly impacts the load-carrying capacity of the headed bars as they control the crack widths before failure.

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再生混凝土骨料对嵌入细长结构构件中的封头钢筋混凝土抗破坏性的影响

再生混凝土骨料对混凝土预制件行业具有潜在的吸引力，因为它们为产品生命周期中产生的高质量废料提供了新的用途。在预制混凝土结构中，结构构件之间的几种连接类型通常使用镦粗钢筋。本文介绍了实验测试结果，以研究用粗再生混凝土骨料替代粗天然骨料对嵌入细长结构件中的浇注式带头钢筋的混凝土破坏强度的影响。本文介绍了对嵌入 500 × 200 × 900 毫米混凝土构件中的 16 毫米带头钢筋（有效嵌入深度为 110 毫米）进行的 12 次测试结果。混凝土再生骨料对天然骨料的替代率分别为 0%、30% 和 100%，结构件的抗弯配筋率从 0.5% 到 3.5% 不等。对测试试件的行为和强度进行了讨论，并与理论强度估计值进行了比较。结果表明，带头钢筋的混凝土破坏强度不受使用再生混凝土骨料的影响，而挠性配筋率对带头钢筋的承载能力有显著影响，因为它们控制了破坏前的裂缝宽度。

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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Buildings

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