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Experimental Study of Flexural Tensile Strength of Sand Concrete Plates Reinforced with Metallic Fibers

Melais, Saloua / Bouali, Meriem Fakhreddine

This paper presents the findings of an experimental study of sand concrete plates reinforced with metallic fibers (BSFM) mixes with respect to a reference sandcrete without fibers (BST) that establishes a benchmark for the BSFM mixes. The performed tests are based on the characteristics of fresh sandcrete (density, slump) and on the mechanical behavior of slabs in centered flexion. It was concluded that the metallic fibers improves the tensile strength, rigidity and durability characteristic after cracking. These characteristics are at an optimum for a sand concrete reinforced with metal fibers (BSFM) with 30kg of fibers per m³ of sand concrete.

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Experimental Study of Flexural Tensile Strength of Sand Concrete Plates Reinforced with Metallic Fibers

Melais, Saloua / Bouali, Meriem Fakhreddine

This paper presents the findings of an experimental study of sand concrete plates reinforced with metallic fibers (BSFM) mixes with respect to a reference sandcrete without fibers (BST) that establishes a benchmark for the BSFM mixes. The performed tests are based on the characteristics of fresh sandcrete (density, slump) and on the mechanical behavior of slabs in centered flexion. It was concluded that the metallic fibers improves the tensile strength, rigidity and durability characteristic after cracking. These characteristics are at an optimum for a sand concrete reinforced with metal fibers (BSFM) with 30kg of fibers per m³ of sand concrete.

Experimental Study of Flexural Tensile Strength of Sand Concrete Plates Reinforced with Metallic Fibers

Melais, Saloua / Bouali, Meriem Fakhreddine

This paper presents the findings of an experimental study of sand concrete plates reinforced with metallic fibers (BSFM) mixes with respect to a reference sandcrete without fibers (BST) that establishes a benchmark for the BSFM mixes. The performed tests are based on the characteristics of fresh sandcrete (density, slump) and on the mechanical behavior of slabs in centered flexion. It was concluded that the metallic fibers improves the tensile strength, rigidity and durability characteristic after cracking. These characteristics are at an optimum for a sand concrete reinforced with metal fibers (BSFM) with 30kg of fibers per m³ of sand concrete.

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Title:

Experimental Study of Flexural Tensile Strength of Sand Concrete Plates Reinforced with Metallic Fibers

Contributors:

Melais, Saloua / Bouali, Meriem Fakhreddine

Published in:

Key Engineering Materials ; 857 ; 74-82

Publication date:

2020-08-07

Size:

9 pages

ISSN:

1662-9795 , 1013-9826

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.857.74

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Plates , Sand Concrete , Traction Strength , Metallic Fiber , Granulated Slag

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