Analysis behaviour of static and dynamic properties of Ethylene-Propylene-Diene-Methylene crumb rubber mortar

Gisbert, Antonio Nadal; Borrell, J.M. Gadea; Parrés, F.; Sanchís, Emilio; Amorós, José Enrique Crespo; Alcaraz, Jorge Gabriel Segura; Vicente, Fidel Salas

doi:10.1016/j.conbuildmat.2013.10.018

Cited by 32 publications

(9 citation statements)

References 26 publications

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“…The cement-stabilized macadam mixed with 0.5% rubber particles has good frost resistance, and the dry shrinkage strain increases slowly, which is conducive to delaying the cracking of the base [20]. The addition of rubber can improve the frost resistance [21][22][23]. The mechanical properties and water stability of rubber powder cement-stabilized macadam base mixtures with different dosages were tested.…”

Section: Introductionmentioning

confidence: 99%

Study on Performance of Retarded Composite Semi-Rigid Base Mixed with Rubber Powder

Guo

Chen

et al. 2022

Materials

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In order to solve the problem of poor crack resistance and frost resistance of semi-rigid base, rubber powder and retarder were added to a semi-rigid base mixture. First, 61 mixing ratios were determined. Then, through the unconfined compressive strength, splitting strength, and other tests, the mechanical, crack, and frost resistance properties of the retarded composite semi-rigid base coarse mixture with rubber powder were studied. Finally, the macro and micro properties of the two kinds of admixture composite semi-rigid base coarse mixtures were studied by means of SEM and industrial CT. The results show that rubber powder and retarder can effectively improve the cracking and freezing resistance of the mixture. After five freeze–thaw cycle tests, the strength of the retarded composite semi-rigid base material mixed with rubber powder decreased slightly compared with the mixture without additives. It can be seen that rubber powder improved the frost resistance of the mixture. When the content of rubber powder was 1.5%, the BDR value of the mixture increased by 8.8%. With the increase of unconfined compressive strength, splitting strength, and flexural tensile strength at 28 d and 90 d, it was found that the retarder improved the middle and late strength of the mixture. When the content of retarder was 0.09%, the increase of unconfined compressive strength at 28 d reached 3.9%. The addition of rubber powder and retarder improved the distribution of internal pores, the proportion of large pores decreased, and the proportion of small pores increased. The retarder changed the morphology of hydration products, formed a dense network supporting structure, further refined the pores, and reduced the porosity of the mixture. The proportion of pores with a volume greater than 100 mm3 in the total pore volume decreased by 26.01%, and the proportion of medium pores increased by 13.07%, thereby improving the mechanical properties of the mixture.

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Section: Introductionmentioning

confidence: 99%

Study on Performance of Retarded Composite Semi-Rigid Base Mixed with Rubber Powder

Guo

Chen

et al. 2022

Materials

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“…Further works have analysed of the durability and safety of the concrete–rubber mixtures. The analyses have proven the suitability of the concrete–rubber mixture as structural and non-structural material [ 22 , 23 , 24 , 25 , 26 ]. A suitable model is required to describe the behaviour of concrete doped with rubber in engineering applications.…”

Section: Introductionmentioning

confidence: 99%

Acoustic Behavior of Hollow Blocks and Bricks Made of Concrete Doped with Waste-Tire Rubber

et al. 2016

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In this paper, we investigate the acoustic behaviour of building elements made of concrete doped with waste-tire rubber. Three different mixtures were created, with 0%, 10%, and 20% rubber in their composition. Bricks, lattice joists, and hollow blocks were manufactured with each mixture, and three different cells were built and tested against aerial and impact noise. The values of the global acoustic isolation and the reduction of the sound pressure level of impacts were measured. Results proved that highly doped elements are an excellent option to isolate low frequency sounds, whereas intermediate and standard elements constitute a most interesting option to block middle and high frequency sounds. In both cases, the considerable amount of waste-tire rubber recycled could justify the employment of the doped materials for the sake of the environment.

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“…A avaliação comparativa da resistência à flexão na substituição de agregado petrográfico por borracha fina e grosseira mostraram melhores resultados com granulometrias de borracha grosseira. No entanto, com o uso de ambas granulometrias ocorre queda progressiva na resistência à flexão com o aumento progressivo do teor de borracha(GISBERT et al, 2014). Este material poderia ter aplicações em calçadas destinadas ao tráfego de pedestres, em que a menor rigidez do piso poderia resultar em maior conforto na caminhada; em áreas pavimentadas que apresentam árvores, sendo que a ação das raízes não provocaria comprometimento ao pavimento; em pavimentos para tráfego de veículos pesados, pois neste caso o compósito cimento/borracha na forma de estrutura sanduíche permitiria deformações reversíveis do pavimento sem causar danos na estrutura deste; situação similar à anterior também poderia ser aplicada em lajes para edificações.…”

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“…O módulo de elasticidade diminui de forma praticamente linear até 40%, indicando maior elasticidade nos compósitos (XUE; SHINOZUKA, 2013).A queda gradual dos módulos de elasticidade se justifica pelo fato da relação direta entre estes e a massa específica da argamassa ou concreto. Por serem as argamassas e os concretos materiais multifásicos e heterogêneos, todas as suas fases contribuem na integração de um novo módulo de elasticidade diferente daqueles dos constituintes individualmente; a adição de um agregado com menor massa específica nestes tipos de materiais, como é o caso da adição gradual de agregado de borracha, resulta em uma queda nos módulos de elasticidade(FARHAN et al, 2015;FARHAN;DAWSON;THOM, 2016;GISBERT et al, 2014;GUPTA et al, 2017;GUPTA;CHAUDHARY;SHARMA, 2014;KAEWUNRUEN et al, 2018;MIRANDA et al, 2013;MOHAMMED;ADAMU;SHAFIQ, 2017;ZHOU et al, 2015). E é o módulo do compósito, E 1 e E 2 são os módulos de elasticidade dos materiais que constituem o compósito e v 1 e v 2 representam as frações volumétricas da matriz e das cargas adicionadas no material, sendo v 1 + v 2 = 1. tipos de vibrações.…”

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“…A diminuição de massa específica no material é desprezível com valores de até 10% do teor de borracha no volume de material compósito(KHATIB;BAYOMY, 1999).A análise da massa específica de diferentes materiais é de crucial importância pelo fato de estar diretamente relacionada com múltiplas propriedades como as resistências de compressão e flexão, módulos de elasticidade, tenacidade, energia de fratura entre outras propriedades. Tem sido verificado o comportamento da massa específica da argamassa e/ou concreto com a variação da carga de agregado polimérico, mostrando tendências em que esta propriedade física diminui gradualmente com o aumento progressivo de cargas poliméricas(GISBERT et al, 2014). Os aditivos usados são catalogados como resinas termorrígidas ou termofixas, as quais são curadas mediante uso de agentes de cura.As resinas poliméricas citadas são compatíveis com outros polímeros como borrachas e sintetizadas por empresas com objetivo de servir como aditivos, adesivos, selantes, agentes de cura, proteção e compatibilização.…”

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Compósitos compatibilizados de argamassa e borracha de pneus

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Analysis behaviour of static and dynamic properties of Ethylene-Propylene-Diene-Methylene crumb rubber mortar

Cited by 32 publications

References 26 publications

Study on Performance of Retarded Composite Semi-Rigid Base Mixed with Rubber Powder

Study on Performance of Retarded Composite Semi-Rigid Base Mixed with Rubber Powder

Acoustic Behavior of Hollow Blocks and Bricks Made of Concrete Doped with Waste-Tire Rubber

Compósitos compatibilizados de argamassa e borracha de pneus

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