Effect of Chipped Fiber Languor on the Bending Behavior of Concrete Beam Elements

IF 1 Q4 ENGINEERING, CIVIL

Journal of Applied Engineering Sciences Pub Date : 2023-12-01 DOI:10.2478/jaes-2023-0020

D. Atlaoui, K. Ghouilem

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Abstract

Abstract This article studies the behavior of concrete beams reinforced with metal fibers (chips) randomly arranged in concrete, to improve ductility and bending stiffness and limit crack openings. These fibers come from machining waste from steel parts. The fibers are characterized for mechanical resistance and tearing. Three series of tests were carried out for languor respectively L = 4 cm, L = 5 cm and L = 6 cm. Bending tests (three-point bending) are carried out on prismatic specimens of dimensions [10x20x120] cm3. Compression tests are carried out on cylinders with a diameter of Ø16 cm and a height of H32 cm in order to determine the mechanical properties of the concrete used. The composition of the concrete is determined by the experimental method known as “Dreux-Gorisse”. Two fiber contents are retained for this study (W= 0.6% and W= 0.8%) and a BT control concrete (W=0%) with W: fiber contents in the concrete, of the same composition as the matrix is developed for serve as a reference. The confrontation and comparison of the different results obtained show that the fibers with languor L=6 cm confer significant ductility to the material after cracking of the concrete, better than the other languor’s (L= 4 cm and 5 cm) with numbers of undulations (spirals) n=3.5and 6. Also, the fibers used limit bending cracks and improve strength and rigidity.

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碎裂纤维对混凝土梁构件弯曲行为的影响

摘要本文研究了在混凝土中随机布置金属纤维(切屑)增强混凝土梁的性能，以提高延性和抗弯刚度，限制裂缝开度。这些纤维来自钢铁零件的加工废料。纤维的特点是机械阻力和撕裂。分别对L = 4 cm、L = 5 cm和L = 6 cm进行了三组试验。弯曲试验(三点弯曲)在尺寸为[10x20x120] cm3的棱柱试件上进行。在直径为Ø16厘米、高度为H32厘米的圆柱体上进行压缩试验，以确定所用混凝土的机械性能。混凝土的成分由称为“Dreux-Gorisse”的实验方法确定。本研究保留了两种纤维含量(W= 0.6%和W= 0.8%)，并开发了一种与基体组成相同的纤维含量为W:的BT对照混凝土(W=0%)作为参考。通过对不同试验结果的对比和比较，结果表明:L=6 cm的纤维对混凝土开裂后材料的延展性显著优于n=3.5和6的L= 4 cm和5 cm的纤维。此外，所使用的纤维限制弯曲裂纹，提高强度和刚度。

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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来源期刊

Journal of Applied Engineering Sciences ENGINEERING, CIVIL-

自引率

9.10%

发文量

审稿时长

12 weeks