State-of-the-Art Review of Capabilities and Limitations of Polymer and Glass Fibers Used for Fiber-Reinforced Concrete

Shafei, Behrouz; Kazemian, Maziar; Dopko, Michael; Najimi, Meysam

doi:10.3390/ma14020409

Cited by 60 publications

(28 citation statements)

References 186 publications

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“…The results showed that the use of 2% steel fibers can play an effective role in improving the bearing capacity of beams made with recycled materials [18]. According to studies, tensile, compressive, and flexural concrete strengths can be significantly increased using fiber [6,19,20]. In a number of mentioned studies, it has been observed that steel fibers have been used in concrete jackets.…”

Section: Introductionmentioning

confidence: 99%

“…These methods can include methods such as changing the lateral-resisting system (brace or shear wall), adding steel plates (steel jacket), using concrete jackets, using reinforced polymer fiber, using fiber concrete, shotcrete, and using near-surface mounted composite rebars, etc. [6][7][8][9]. Nowadays, strengthening and rehabilitation of beams, which are essential members of structural frames, have been investigated.…”

Section: Introductionmentioning

confidence: 99%

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Strengthening of RC Beams Using SCC Jacket Consisting of Glass Fiber and Fiber-Silica Fume Composite Gel

Mohsenzadeh

Maleki

Lotfollahi-Yaghin

2021

IJE

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In this paper, strengthening of RC beams with self-consolodating concrete (SCC) jacket containing glass fiber (GF) and fiber-silica fume composite gel (FSCG) were investigated. FSCG can use as a substitute for a part of the cement that contains silica fume powder, polypropylene fibers, superplasticizer, concrete waterproof, and some other admixtures. In order to evaluate the performance of the proposed jacket, twelve beams were strengthened and a control beam was made. The variables included the amount of glass fibers consumed in the jacket (0, 0.25, 0.5, 0.75, 1 and 1.25% by volume) and the amount of FSCG gel (0 and 7%), respectively. Fresh and hardened concrete properties and flexural capacity of RC beams were investigated. The use of FSCG in RC jackets can compensate well for the deficiency in strength due to the GF entry into the concrete matrix. High affinity of these materials improve the cohesion between cement and GFs. RC jackets containing GF and FSCG increased the beams' energy absorption capacity by about 89 to 463%, depending on the percentages of GFs. RC jacket containing GF and FSCG delays the growth of the primary crack and it can significantly increase the maximum load. Also, Glass Fiber Reinforced Polymer (GFRP) sheets have poor performance compared to the proposed method due to separation from the surface of the strengthened beams, and their load-bearing capacity and energy absorption are lower.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Strengthening of RC Beams Using SCC Jacket Consisting of Glass Fiber and Fiber-Silica Fume Composite Gel

Mohsenzadeh

Maleki

Lotfollahi-Yaghin

2021

IJE

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“…The transport of corrosive agents to concrete is significantly increased when cracks are generated and propagated in concrete which can be controlled by using fibers. The crack mitigation effects of fiber addition to concrete is extensively investigated in an effort by Shafei et al 3 According to the scientific point of view, when the amount of chloride concentration in concrete environment reaches a specific limit, defined as critical content ( C crit ), depassivation of rebars occurs 4 . According to the investigations, it can be generally concluded that the use of SCMs in concrete results in improvement of durability against chloride ingress by decreasing chloride permeability, 5–8 making concrete's interfacial transition zone (ITZ) denser, optimizing the pore structure, and reasonably enhancing the pore size distribution, 9 and increasing chloride binding by using alumina rich SCMs 10–12 …”

Section: Introductionmentioning

confidence: 99%

Effects of cyclic carbonation and chloride ingress on durability properties of mortars containing Trass and Pumice natural pozzolans

Kazemian

Sedighi

Ramezanianpour

et al. 2021

Structural Concrete

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With an increase in CO2 emission, corrosion of reinforcement as a result of carbonation has become more significant to researchers besides corrosion due to chloride ion ingress. Many structures are exposed to coupled effects of carbonation and chloride attack; therefore, investigating the effect of this combined attack on the durability of concrete is a vital subject. Also, the use of supplementary cementitious materials (SCMs) has become more common due to their contribution to concrete's properties. In this study, the combined effect of chloride attack and carbonation on the durability of mortars containing SCMs was studied. Two natural pozzolans (Pumice and Trass) were used as cement replacements in mortar mixtures with three w/b ratios of 0.485, 0.44, and 0.4. Four exposure conditions, namely normal (immersed in lime‐saturated water), chloride attack, carbonation, and cyclic carbonation and chloride attack were considered. Compressive strength, carbonation and chloride penetration depth, capillary water absorption, surface electrical resistivity, and chloride diffusion tests were performed. The results indicate that while carbonation depth is reduced in the combined attack environment, it imposed a more severe corrosive condition in comparison to pure immersion in saline water by increasing the diffusion coefficient up to 500%. Also, addition of pozzolans showed the potential to reduce the diffusion coefficient of the mortars as much as 76% pointing out that mortars without pozzolans were more vulnerable to this combined attack environment. Furthermore, cement replacement with Trass and reduction of w/b showed to be beneficial in reducing the destructive effects of the combined environment.

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“…Moreover, macro-synthetic fiber is an economical material because it can replace shrinkage and temperature reinforcement and can reduce the reinforcing bar work. According to previous studies, polypropylene (PP) fibers are effective in preventing an explosion of concrete [ 5 , 6 , 7 , 8 ]. Macro-synthetic fibers made of polypropylene have a melting point that is approximately 160 °C lower than that of steel or glass fibers.…”

Section: Introductionmentioning

confidence: 99%

“…To quantitatively evaluate deflection during a fire for a deck slab incorporated with macro-synthetic fibers, the creep strain based on the concrete temperature change according to the Anderberg model [20] and the thermal strain of the reinforcing bar as proposed by Eurocode 2 were applied [15]. The strain of concrete is equal to Equation (7) and the thermal strain of reinforcement is equal to Equation ( 8 When assuming that the deflection caused by the thermal load occurs due to the moment at the end, it can be calculated according to the general curvature derivation process. A case in which deflection occurs in a simply supported member is shown in Equations ( 9) and (10):…”

mentioning

confidence: 99%

Deflection Estimation Based on the Thermal Characteristics of Composite Deck Slabs Containing Macro-Synthetic Fibers

et al. 2021

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The purpose of this study was to evaluate the structural performance of composite deck slabs containing macro-synthetic fibers. after a fire by proposing a deflection estimation method for non-fireproof structural decks. Therefore, this study evaluated the fire resistance performance and deflection of deck slabs mixed with macro-synthetic fibers. Afterward, the deflection estimation method considering the thermal characteristics of concrete and deck plates was proposed. A material test was first conducted to evaluate the mechanical properties of concrete mixed with macro-synthetic fibers. This test found that the compressive strength and elasticity modulus of concrete mixed with macro-synthetic fibers was greater than that of general concrete. A flexural tensile test confirmed that residual strength was maintained after the maximum strength was achieved. The fire resistance of the deck slab was adequate even when a fire-resistant coating was not applied. The internal temperature was lowest for the specimen with macro-synthetic fibers. Deflection was evaluated using previously published equations and standards. The deflection evaluation confirmed that the temperature distribution should be applied differently in the estimation method that uses the thermal load of the deck slab.

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State-of-the-Art Review of Capabilities and Limitations of Polymer and Glass Fibers Used for Fiber-Reinforced Concrete

Cited by 60 publications

References 186 publications

Strengthening of RC Beams Using SCC Jacket Consisting of Glass Fiber and Fiber-Silica Fume Composite Gel

Strengthening of RC Beams Using SCC Jacket Consisting of Glass Fiber and Fiber-Silica Fume Composite Gel

Effects of cyclic carbonation and chloride ingress on durability properties of mortars containing Trass and Pumice natural pozzolans

Deflection Estimation Based on the Thermal Characteristics of Composite Deck Slabs Containing Macro-Synthetic Fibers

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