Impact Resistance of Rubberized Concrete

Sallam, Hossam El-Din M.; Sherbini, Ahmad S; Seleem, M. H.; Balaha, M. M.

doi:10.21608/erjm.2008.69543

Cited by 20 publications

(16 citation statements)

References 10 publications

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“…The elastic properties and fatigue resistance will also improve by using crumb rubber in concrete [ 18 ]. The previous research conducted by Sallam et al [ 19 ] revealed that resistance of crack under impact loading will be improved in the presence of rubber particle. Hameed and Shashikala [ 18 ] indicated that the stiffness of concrete will be increased when containing crumb rubber under cyclic loads.…”

Section: Railway Applicationsmentioning

confidence: 99%

Enhancement of Dynamic Damping in Eco-Friendly Railway Concrete Sleepers Using Waste-Tyre Crumb Rubber

Kaewunruen

Chen

et al. 2018

Materials

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There is no doubt that the use of waste rubber in concrete applications is a genius alternative because Styrene is the main component of rubber, which has a strong toxicity and is harmful to humans. Therefore, it will significantly reduce impacts on the environment when waste rubber can be recycled for genuine uses. In this paper, the dynamic properties of high-strength rubberised concrete have been investigated by carrying out various experiments to retain the compressive strength, tensile strength, flexural strength, electrical resistivity, and damping characteristics by replacing fine aggregates with micro-scale crumb rubber. Over 20 variations of concrete mixes have been performed. The experimental results confirm that a decrease in the compressive strength can be expected when the rubber content is increased. The new findings demonstrate that the high-strength concrete can be enhanced by optimal rubber particles in order to improve splitting tensile and flexural strengths, damping properties, and electrical resistivity. It is therefore recommended to consider the use of rubberised concrete (up to 10 wt. % crumb rubber) in designing railway sleepers as this will improve the service life of railway track systems and reduce wastes to the environment.

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Section: Railway Applicationsmentioning

confidence: 99%

Enhancement of Dynamic Damping in Eco-Friendly Railway Concrete Sleepers Using Waste-Tyre Crumb Rubber

Kaewunruen

Chen

et al. 2018

Materials

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“…Impact energy is 2851 N.m at 0% replacement, and it linearly increases till reaching 3351 N.m at 24% replacement. Different ratios of increase in impact energy of rubberized concrete were previously reported by some researchers in the literature [3,10,[21][22]. A possible reason might be due to the ability of the tire rubber particles to allow for large deformations.…”

Section: Mass Lossmentioning

confidence: 83%

Effect of Impact Load on Concrete Containing Recycled Tire Rubber Aggregate With and Without Fire Exposure

Muhammad

faraj

Abdulkadir

2020

KJAR

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Over one billion tires are disposed into the environment each year and this has become a major environmental issue in the globe. Recycling of these waste tire rubbers in concrete has gained attention from researchers all around the world. In this study, the impact resistance of rubberized concrete exposed to fire is investigated experimentally in the laboratory. For that purpose, sixty specimens were made with five different mixes replacing their sand content partially with different percentages of tire rubber by weight ratios of 0% control, 6%, 12%, 18% and 24%. The water/cement ratio was kept constant at 0.393 in all the mixes. In each mix, fifteen concrete specimens with the size of (150 x 150 x 73) mm were prepared to expose to fire. Every three specimens were gradually exposed to fire for four various durations of (0, 15, 30, and 45) minutes. Each specimen was then tested in a drop-weight impact machine by dropping 2240-gr and 4500-gr hammers from heights of 280 mm and 450 mm. The average impact energy of three identical specimens required for the occurrence of the final fracture was calculated. The investigational results are compared with results of control samples. It is found that the impact energy considerably increased with an increase of the rubber replacement. It is, also, noted that any increase in the burning period of specimens results in a reduction of the impact energy and more early crushing of the rubberized concrete.

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“…They outlined that over this ratio, toughness decreased as a result of the strength decrease. Sallam et al [54] studied three rubberized concrete mixes with 10%, 20% and 30% replacement of sand volume with crumb rubber. They showed that existence of small size grains of rubber in the concrete mix increased the mix resistance against crack initiation under impact load.…”

Section: Impact Resistance and Fracture Toughnessmentioning

confidence: 99%

Rubberized concrete properties and its structural engineering applications – An overview

Elshazly

Mustafa

Fawzy

2020

The Egyptian International Journal of Engineering Sciences and

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This paper presents a review on rubberized concrete mixes and their properties such as strength, ductility, sound and water absorption, in addition to acid and sulphate resistance. Moreover, it discusses a review about using rubberized concrete in structural elements and its effect on ultimate compressive strength and ductility. Rubberized concrete mixes exhibit lower strength than ordinary concrete mixes. On the other hand, rubberized concrete has higher ductility and energy dissipation behaviour. Rubberized concrete with its lightweight showed a high resistance to freeze-thaw and sulphate and acid attacks in comparison with ordinary concrete. The most common structural member is Rubberized Concrete Filled Steel Tubes (RUCFST). In addition to the aforementioned merits of rubberized concrete, the confining effect of the steel tube recoups the reduction in concrete compressive strength caused by rubber inclusion. Limited researches concerned in strengthening and repairing of deficient Concrete Filled Steel Tubes (CFST) with different types of Fibre Reinforced Polymers (FRP). There is noticeable effect of using these FRP materials on RUCFST sections, ultimate strength and ductility.

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Impact Resistance of Rubberized Concrete

Cited by 20 publications

References 10 publications

Enhancement of Dynamic Damping in Eco-Friendly Railway Concrete Sleepers Using Waste-Tyre Crumb Rubber

Enhancement of Dynamic Damping in Eco-Friendly Railway Concrete Sleepers Using Waste-Tyre Crumb Rubber

Effect of Impact Load on Concrete Containing Recycled Tire Rubber Aggregate With and Without Fire Exposure

Rubberized concrete properties and its structural engineering applications – An overview

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