Experimental Study on Fracture Properties of Self-Compacting Concrete Containing Red Mud Waste and Different Steel Fiber Types

Hassan M. Magbool
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Abstract

This study aims to investigate the effect of integrating red mud (RM) waste and different types of steel fibers on the fracture toughness characteristics of self-compacting concrete (SCC). A total of 24 specimens consisting of notched SCC beams with various steel fibers (measuring 100 × 100 × 500 mm) are subjected to a three-point bending test. This study examines five various fiber types characterized by varying shapes and aspect ratios. These fiber types include the hook-end fiber with lengths of 60 and 30 mm, the long straight fiber with lengths of 21 and 13 mm, and the flat-end fiber. Six concrete mixtures, each incorporating fibers with 1% of the volume percentage, are examined. RM is used at a replacement rate of 20% of the mass of cement. Another objective of the study is to analyze the mechanical and fresh characteristics of concrete. The findings indicate that the incorporation of steel fiber has an adverse effect on the fresh concrete characteristics of SCC. The presence of steel fiber results in enhanced mechanical properties, peak loads, and deflection at the point of failure, in addition to an increase in the crack mouth opening displacement. The fracture toughness of SCC mixtures is also influenced by the presence of steel fiber.
含赤泥废料和不同钢纤维的自密实混凝土断裂性能实验研究
本研究旨在探讨赤泥(RM)废料和不同类型的钢纤维对自密实混凝土(SCC)断裂韧性特性的影响。共有 24 个带有不同钢纤维的缺口 SCC 梁试件(尺寸为 100 × 100 × 500 毫米)接受了三点弯曲试验。本研究考察了五种不同形状和长径比的纤维类型。这些纤维类型包括长度分别为 60 毫米和 30 毫米的钩端纤维、长度分别为 21 毫米和 13 毫米的长直纤维以及平端纤维。研究了六种混凝土混合物,每种混合物的纤维含量均为体积百分比的 1%。RM 的替代率为水泥质量的 20%。研究的另一个目的是分析混凝土的力学和新拌特性。研究结果表明,掺入钢纤维会对 SCC 的新拌混凝土特性产生不利影响。钢纤维的存在导致力学性能、峰值荷载和破坏点挠度增强,此外还增加了裂缝口张开位移。钢纤维的存在也会影响 SCC 混合物的断裂韧性。
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