RC beams with an early phase of reinforcement damage

Yaroslav Blikharskyy, Roman Khmil, Dušan Katunský, Zinoviy Blikharskyy
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Abstract

This article presents the experimental results of reinforced concrete beams with thermally strengthened reinforcement. According to engineering experience, rein-forced concrete is the most commonly used construction material today. Rein-forced concrete structures are widely used in buildings and roof structures for both industrial and civil purposes. Reinforced concrete is optimally used as part of building structures and effectively performs its functions, perceiving various types of force and non-force influences, the nature of which depends on the conditions of operation in different environments. At the same time, for reinforced concrete structures, the durability and residual bearing capacity sometimes de-pends not only on force loads, but also on the effects of the surrounding environment. One of the most dangerous effects are corrosion processes, which cause the appearance of defects of various degrees and, accordingly, a decrease in the load-bearing capacity of structural elements. At the same time, the intensity of degradation of structures under the influence of an aggressive environment de-pends on the operating conditions, chemical composition and concentration of the aggressive environment. That is why, two beams with a diameter of 20 mm of reinforcement of class A500C were designed and experimentally tested, and the other two beams were tested with damage from 20 mm to 18 mm of the outer thermally strengthened layer. Damage from 20 mm to 18 mm corresponds to 19% of undamaged samples.
钢筋早期损坏的 RC 梁
本文介绍了采用热加固钢筋的钢筋混凝土梁的实验结果。根据工程经验,钢筋混凝土是当今最常用的建筑材料。钢筋混凝土结构广泛应用于工业和民用建筑和屋顶结构。钢筋混凝土作为建筑结构的一部分得到了最佳应用,并有效地发挥了其功能,能够感知各种类型的力和非力影响,其性质取决于不同环境下的运行条件。同时,钢筋混凝土结构的耐久性和剩余承载能力有时不仅取决于力荷载,还取决于周围环境的影响。最危险的影响之一是腐蚀过程,它会导致出现不同程度的缺陷,从而降低结构构件的承载能力。同时,结构在腐蚀性环境影响下的退化程度取决于工作条件、腐蚀性环境的化学成分和浓度。因此,我们设计了两根钢筋直径为 20 毫米的 A500C 级横梁并进行了实验测试,另外两根横梁则在外层热加固层受到 20 毫米至 18 毫米破坏的情况下进行了测试。20 毫米至 18 毫米的损坏相当于未损坏样品的 19%。
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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