Effect of geogrid on the structural behavior of reinforced concrete beams

Yousif, Mustafa A.; Mahmoud, Kamal Sh.; Hacheem, Zuhiar Abd; Rasheed, Mohammed M.

doi:10.1088/1742-6596/1895/1/012048

Cited by 3 publications

(1 citation statement)

References 8 publications

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“…Geogrid is used for strengthening weak soils to improve foundations beneath railway structures and roads [17,18]. Many characteristics and advantages lead to the use of geogrid, such as being very light in weight, high corrosion resistance, high resistance to attack by chlorides and sulfates, ease of transportation from one place to another, easy to cut and use, relatively low cost and high tensile resistance [19,20,21,22]. There are three main types of geogrids: uniaxial, biaxial, and triaxial.…”

Section: Introductionmentioning

confidence: 99%

Assessment of Shrinkage Strain Reduction SSR for RC Slabs with Different Thicknesses Strengthen with Different Layers of Geogrid

El-Sayed

Hamdy

Saad

et al. 2023

The Egyptian International Journal of Engineering Sciences and

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This study presents experimental work to evaluate the efficiency of using the biaxial geogrid as a shrinkage reinforcement for RC slabs instead of using upper shrinkage steel reinforcement. Geogrid distinguish from steel reinforcement in its low cost and it doesn't rust. The present work studies and assesses the shrinkage strain of RC slabs considering different parameters, slab thickness, number of geogrid layers, and thickness of the upper concrete cover. The shrinkage strain is measured, while shrinkage strain reduction SSR% is determined considering plastic and dry shrinkages, along with temperature and humidity are recorded weekly for 15 specimens of 50*50 cm slabs over 91 days. All specimens have lower steel reinforcement with/without upper geogrid reinforcement. The results prove the efficiency of geogrids reinforcement to resist the shrinkage stains in RC slabs, where, two layers of geogrids with 3 cm of upper cover gives the lowest shrinkage stain, i.e., largest shrinkage resistance. The results also show that as the RC slab thickness decrease as the shrinkage strain and SSR% value increase and vice versa. But there is no noteworthy effect of geogrid on the SSR% value.

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Section: Introductionmentioning

confidence: 99%

Assessment of Shrinkage Strain Reduction SSR for RC Slabs with Different Thicknesses Strengthen with Different Layers of Geogrid

El-Sayed

Hamdy

Saad

et al. 2023

The Egyptian International Journal of Engineering Sciences and

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Shear behavior of prestressed concrete deep beam

Atshan¹,

Mahmoud²,

Yousif³

et al. 2023

AIP Conference Proceedings

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Residual strength and toughness after impact loading for RC slabs strengthened with different layers of geogrid

M. E. AHMED,

HAMDY,

L. Z. SAAD

et al. 2023

srees

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This study presents an experiment for investigating the residual strength and toughness of reinforced concrete, RC, and slab reinforced by a geogrid as shrinkage reinforcement along with lower tensile steel reinforcement. Three different parameters were considered, slab thickness, number of geogrid layers, and thickness of the upper concrete cover. Fifteen slab samples with sizes of 50 × 50 cm exposed to the impact load on its center before being re-load by the static load and six slab samples exposed to the static load only. The load and deflection relation were recorded through the static loading process for all specimens, where loading capacity, toughness, and toughness index were measured. The results show an enhancement in the slabs residual strength as the slab thickness and concrete cover increased. On the other hand, the residual strength of slabs has a remarkable decrease with the increase in geogrid layers. Moreover, the toughness has a positive relationship with the concrete cover and has an inverse relation with the slab thickness and the number of layers. A geogrid reduced the number and distribution of cracks and mitigated their severity, especially for double layers with the same concrete cover.

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Effect of geogrid on the structural behavior of reinforced concrete beams

Cited by 3 publications

References 8 publications

Assessment of Shrinkage Strain Reduction SSR for RC Slabs with Different Thicknesses Strengthen with Different Layers of Geogrid

Assessment of Shrinkage Strain Reduction SSR for RC Slabs with Different Thicknesses Strengthen with Different Layers of Geogrid

Shear behavior of prestressed concrete deep beam

Residual strength and toughness after impact loading for RC slabs strengthened with different layers of geogrid

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