Compressive Strength Dependency on the Effect of Temperature Variation on the Percentages of Steel Fiber in Concrete

The Open Construction & Building Technology Journal Pub Date : 2023-02-02 DOI:10.2174/18748368-v17-e230202-2022-17

Emiri Dafe Aniekan, Chiadighikaobi Paschal Chimeremeze, Ng’andu Prosper

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Abstract

The aim of this study is to check the effectiveness of steel fiber to the compressive strength of concrete Fibers have long been used as building materials to improve the ductility, tensile, compressive, and flexural strengths of concrete. Although fibers have been known as an effective reinforcement material for concrete structures, it is also acknowledged to be a suitable alternative to reinforcement steel bars. The objective of this research is to investigate some engineering properties, compressive behavior of steel fiber reinforced concrete (SFRC) and the effect of elevated temperature of up to 1000°C on concrete. Various tests which included slump test, compressive strength test, as well as heating tests were done. The workability (slump) and thermal effects of M20 SFRC were evaluated. Based on the results obtained, it could be observed that the workability of the M20 concrete reduced with the increase in steel fiber (SF) content from 0% to 1.6% as values obtained were 80mm, 73mm, 67mm, 61mm and 55mm for SF contents of 0%, 0.4%, 0.8%, 1.2% and 1.6% respectively. These values showed medium workability of the concrete according to ASTM C-143/C-143 M-03. Also, the addition of SF to plain M20 concrete greatly improved the compressive strength 〖(f〗_c) with the concrete strength at 26.89N/mm2, 30.41N/mm2, 32.85N/mm2, 35.90N/mm2 and 39.66N/mm2 after 28 days of curing for steel fiber contents of 0%, 0.4%, 0.8%, 1.2% and 1.6% respectively. The f_c after heating the concrete mix to 1,000°C showed improved thermal resistance with 4.2N/mm2, 8.23N/mm2, 11.63N/mm2, 15.60N/mm2 and 17.20N/mm2 for SF contents of 0%, 0.4%, 0.8%, 1.2% and 1.6% respectively. Incorporation of steel fibers in the concrete mix decreased the workability of SFRC but increased its compressive strength and balling tendencies.

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混凝土抗压强度与温度变化对钢纤维掺量影响的关系

本研究的目的是检验钢纤维对混凝土抗压强度的有效性。纤维长期以来被用作建筑材料，以提高混凝土的延性、抗拉、抗压和抗弯强度。虽然纤维被认为是混凝土结构的有效加固材料，但它也被认为是钢筋的合适替代品。本研究的目的是研究钢纤维增强混凝土(SFRC)的一些工程性能、压缩性能以及高达1000°C的高温对混凝土的影响。进行了坍落度试验、抗压强度试验和加热试验。对M20 SFRC的和易性(坍落度)和热效应进行了评价。由结果可知，当钢纤维含量为0%、0.4%、0.8%、1.2%、1.6%时，M20混凝土的和易性随钢纤维含量从0%增加到1.6%而降低，分别为80mm、73mm、67mm、61mm和55mm。根据ASTM C-143/C-143 M-03标准，这些数值表明混凝土具有中等和易性。钢纤维掺量为0%、0.4%、0.8%、1.2%和1.6%时，普通M20混凝土在养护28 d后的抗压强度分别为26.89N/mm2、30.41N/mm2、32.85N/mm2、35.90N/mm2和39.66N/mm2，显著提高了混凝土抗压强度。当SF含量为0%、0.4%、0.8%、1.2%和1.6%时，将混凝土混合料加热至1000℃后的f_c的热阻分别提高到4.2N/mm2、8.23N/mm2、11.63N/mm2、15.60N/mm2和17.20N/mm2。钢纤维的掺入降低了SFRC的和易性，但增加了其抗压强度和成球倾向。

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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The Open Construction & Building Technology Journal

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