Concrete reinforced with irradiated nylon fibers

Martínez-Barrera, Gonzalo; Menchaca‐Campos, Carmina; López, Susana Hernández; Vigueras-Santiago, Enrique; Brostow, Witold

doi:10.1557/jmr.2006.0058

Cited by 44 publications

(26 citation statements)

References 19 publications

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“…Our main interest consists in grafting polymers onto aggregates surfaces. c) Irradiation -by a variety of sources [12][13][14][15][16][17][18][19]. Gamma irradiation has several advantages over conventional curing processes: I) no catalyst or additives are needed to initiate the reaction; II) the initiation is homogenous throughout the system; III) it can be performed at any temperature and be interrupted at a chosen reaction time; IV) the polymer can be analyzed at selected reaction stages; and V) the temperature during reaction initialization is maintained -as contrasted with highly exothermic curing without irradiation.…”

Section: Introductionmentioning

confidence: 99%

Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand

Bobadilla-Sanchez¹,

Martínez-Barrera²,

Brostow³

et al. 2009

Express Polym. Lett.

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Abstract. While mineral concretes belong to the oldest composites used by mankind, in an increasing number of applications their compression strength σc and compressive strain at yield point εY are insufficient. Better results can be achieved with polymer concretes (PCs). We use a polymer concrete (PC): an unsaturated polyester resin as the matrix, CaCO3 and silica sand. Moreover, we have applied two further methods to improve its mechanical properties: reinforcement with polyester fibers and gamma irradiation with a 60 Co source. A non-irradiated PC with 5 wt% CaCO3 has σc = 74 MPa, an irradiated sample with optimized CaCO3 contents 122 MPa. Scanning electron micrographs show that irradiation increases the interface areas between the fibers and the matrix. Improvements from 47 to 176% in εY values are achieved with respect to the conventional PC without fibers, non-irradiated and containing only one mineral component.

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Section: Introductionmentioning

confidence: 99%

Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand

Bobadilla-Sanchez¹,

Martínez-Barrera²,

Brostow³

et al. 2009

Express Polym. Lett.

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“…A total and fast cure for certain polymers is achieved by gamma radiation in the cases when the catalyst does not complete its function, as total polymerization process of the polymer resin [Delahaye et al, 1998;Martínez-Barrera et al, 2006]. This eliminates the need for further additives or monomers.…”

Section: Polymeric Materials: Resin and Fibersmentioning

confidence: 99%

Gamma Radiation as a Novel Technology for Development of New Generation Concrete

Martínez-Barrera¹,

Campos²,

Ureña-Núñez³

2012

Gamma Radiation

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“…A variety of research has been conducted to investigate the characteristics and advantages of fiber-reinforced concrete in the last few decades. Fibers suitable for reinforcing concrete can be made of steel [18], glass [19], polyethylene [20], polypropylene [21,22], polyvinyl alcohol [23], polyester [24], mineral [25], and nylon [26]. Among these fibers, steel fiber is one of the most popular and widely used fibers in both research and practice.…”

Section: Introductionmentioning

confidence: 99%

Combined effect of nano-SiO₂ particles and steel fibers on flexural properties of concrete composite containing fly ash

Zhang

Zhao

Liu

et al. 2013

Science and Engineering of Composite Materials

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This paper presents an experimental study to evaluate the combined effect of nano-SiO 2 particles and steel fibers on flexural properties of concrete composites containing fly ash. In this study, five different nano-SiO 2 contents (1%, 3%, 5%, 7%, and 9%) and five different steel fiber contents (0.5%, 1%, 1.5%, 2%, and 2.5%) were used. The results indicate that addition of nano-SiO 2 and steel fibers decreases the workability of the concrete composites containing fly ash, and both the slump and slump flow decrease gradually with the increase in nano-SiO 2 and steel fiber content. Besides, the addition of nano-SiO 2 can greatly increase the flexural strength and flexural modulus of elasticity of concrete composites containing fly ash. There is a tendency for the increase in the flexural strength flexural modulus of elasticity with an increase in the nano-SiO 2 content when the nano-SiO 2 content is below 5%, while both of the two flexural parameters begin to decrease after the nano-SiO 2 content above 5%. Furthermore, steel fibers have great improvement on the flexural properties of concrete composites containing fly ash and nano-particles. The flexural strength and flexural modulus of elasticity of concrete composites containing fly ash and nano-SiO 2 are more than those of the concrete composite without steel fibers. Both of the two flexural parameters increase with the increase in steel fiber content when the steel fiber content is below 2%, while the flexural parameters begin to decrease after the steel fiber content is above 2%.

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Concrete reinforced with irradiated nylon fibers

Cited by 44 publications

References 19 publications

Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand

Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand

Gamma Radiation as a Novel Technology for Development of New Generation Concrete

Combined effect of nano-SiO₂ particles and steel fibers on flexural properties of concrete composite containing fly ash

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Concrete reinforced with irradiated nylon fibers

Cited by 44 publications

References 19 publications

Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand

Effects of polyester fibers and gamma irradiation on mechanical properties of polymer concrete containing CaCO3 and silica sand

Gamma Radiation as a Novel Technology for Development of New Generation Concrete

Combined effect of nano-SiO2 particles and steel fibers on flexural properties of concrete composite containing fly ash

Contact Info

Product

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Combined effect of nano-SiO₂ particles and steel fibers on flexural properties of concrete composite containing fly ash