2017
DOI: 10.1016/j.compositesb.2017.07.007
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Steel fiber reinforced geopolymer matrix (S-FRGM) composites applied to reinforced concrete structures for strengthening applications: A preliminary study

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Cited by 73 publications
(31 citation statements)
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“…The great water loss of the cementitious mortar is related to the higher presence of water used for the mix design, for which a higher amount of free water evaporated during the test. However, the highest free drying shrinkage is registered for the geopolymeric mortar R3 GEO, which is 85% higher than the values of the other two mortars (Figure 6a), according to the literature [58][59][60]68], whereas the lowest one is shown by R3 CSA [53,69]. This effect is due to two aspects: on one hand, R3 GEO is characterized by the highest percentage of pores with small diameters (around 15 nm, see Figure 4); on the other hand, its dynamic modulus of elasticity is the lowest.…”
Section: Drying Shrinkage and Weight Lossmentioning
confidence: 71%
“…The great water loss of the cementitious mortar is related to the higher presence of water used for the mix design, for which a higher amount of free water evaporated during the test. However, the highest free drying shrinkage is registered for the geopolymeric mortar R3 GEO, which is 85% higher than the values of the other two mortars (Figure 6a), according to the literature [58][59][60]68], whereas the lowest one is shown by R3 CSA [53,69]. This effect is due to two aspects: on one hand, R3 GEO is characterized by the highest percentage of pores with small diameters (around 15 nm, see Figure 4); on the other hand, its dynamic modulus of elasticity is the lowest.…”
Section: Drying Shrinkage and Weight Lossmentioning
confidence: 71%
“…where R f is strength reinforced ratio of SFRC; it can represent f fts /f ts , f fv /f v , or f ftm /f tm ; α c is the influence coefficient of concrete matrix, which is related to compressive strength of concrete matrix. α c can be obtained through the regression analysis of experiment data in this paper and previous literature [13,16,21,[32][33][34][35][36] based on equation (5). According to equation (4), α f is known: α f � 0.21 for ST-F; α f � 0.27 for HE-F; α f � 0.4 for CO-F. e relationship between R f and α f λ f is shown in Figure 9.…”
Section: Effect Of Concretementioning
confidence: 99%
“…Compared with other fibers, steel fiber has many advantages, such as high stiffness and elasticity modulus and tensile strength. Steel fiber reinforced concrete (SFRC) has excellent tensile and flexural property [5,6], which has been widely used as structural material. In order to improve the reinforced effect of steel fiber, the reinforced mechanism of steel fiber on concrete had been researched widely [7,8].…”
Section: Introductionmentioning
confidence: 99%
“…A few investigations have implemented such an approach to clarify the effects of adding different fibers on the mechanical characteristics of OAASs [16]. Although various studies have been conducted on different aspects of the fresh and hardened state properties of fiber reinforced alkali activated mortars (with liquid sodium silicate), such as: rheological properties (reinforced with polyvinyl alcohol (PVA) fibers) [20], bending properties (steel and Polypropylene (PP) [21], PP [22], steel [23][24][25], carbon [26]), durability properties (PP [22], refractory fibers [27]), and ultra-high performance fiber reinforced mortars (PVA [28], polyethylene [29,30], steel [31]). All of these investigations confirmed the positive influential impacts of fibers on alkali activated materials, which the effects of reinforcements majorly depend on the physical and mechanical properties of fiber, bond properties at interfacial transition zone (ITZ) between fiber/matrix, and binding properties and compactness of the matrix.…”
Section: Introductionmentioning
confidence: 99%