Journal
MATERIALS EXPRESS
Volume 13, Issue 1, Pages 159-169Publisher
AMER SCIENTIFIC PUBLISHERS
DOI: 10.1166/mex.2023.2326
Keywords
High-Performance Concrete; Cementitious Material; Lignin; Toughness Indices; Flexural Strength
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This study investigates the mechanical properties of High-performance fiber-reinforced concrete developed with Lignin and brass-coated micro steel fiber. The results show that the brass coating on the mild steel fiber significantly impacts the flexural toughness characteristics of the three-point bending beam specimen, with an increase in the percentage of brass-coated micro steel fiber leading to enhanced flexural toughness parameters. The maximum strength and toughness were achieved with 1.5% fiber content.
The performance of the preponderance of materials can be described by characteristics dependent on their mechanical properties. These parameters can include strength, strain, and stiffness. Strength or stiffness alone is insufficient to characterizeIP: 203.8.109.20fiber-reinforced On Wedconcrete's 29 Mar behavior.2023 This3:51 16study investigates and analyses the mechanical properties of High-performance fiber-reinforced concretdeveloped with Lignin and brass -Copyright: American Scientific Publishers coated micro steel fiber. Cementitious elements such as Ground Granulated Blast-furnace Slag, Metakaolin, Delvered by Ingenta Alcoofine-1203 and Granite powder are used in conjunction with cement to create High-Performance Con-crete. It was found that a mix ratio of 1:1.17:2.20 yielded an M60-grade of concrete using water-to-cement proportion of 0.32. Brass-coated micro steel fibers were used, and the flexural toughness was measured according to ASTM C1018. The toughness index of the structural member was calculated, together with its equivalent flexural Strength, with the application of three-point loading. These results suggest that the brass coating on the mild steel fiber significantly impacts the flexural toughness characteristics of the three-point bending beam specimen. When increasing the percentage of brass-coated micro steel fiber ranging from 0.5% to 2%, the flexural toughness parameters progressively enhance. It is found that 1.5% of fiber depicts the maximum Strength and toughness.
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