Abstract
Abstract In the current investigation, the influence of polyvinyl alcohol (PVA) fibers on flowability and durability of cementitious composite containing fly ash and nano-SiO2 was evaluated. PVA fibers were added into the composite at a volume fraction of 0.3%, 0.6%, 0.9%, and 1.2%. The flowability of the fresh cementitious composite was assessed using slump flow. The durability of cementitious composite includes carbonation resistance, permeability resistance, cracking resistance as well as freezing-thawing resistance, which were evaluated by the depth of carbonation, the water permeability height, cracking resistance ratio of the specimens, and relative dynamic elastic modulus of samples after freeze-thaw cycles, respectively. The results indicated that addition of PVA fibers had a little disadvantageous influence on flowability of cementitious composite, and the flowability of the fresh mixtures decreased with increases in PVA fiber content. Incorporation of PVA fibers significantly improved the durability of cementitious composites regardless of addition of nano-particles. When the fiber content was less than 1.2%, the durability indices of permeability resistance and cracking resistance increased with fiber content. However, the durability indices of carbonation resistance and freezing-thawing resistance began to decrease as the fiber dosage increased from 0.9% to 1.2%. The fiber reinforced cementitious composite exhibited better durability due to addition of nano-SiO2 particles. Nano-SiO2 particle improves microscopic structure of fiber reinforced cementitious composites, and the nano-particles are beneficial for PVA fibers to play the role of reinforcement in cementitious composites.
Highlights
In the current investigation, the influence of polyvinyl alcohol (PVA) fibers on flowability and durability of cementitious composite containing fly ash and nanoSiO2 was evaluated
Incorporation of PVA fibers significantly improved the durability of cementitious composites regardless of addition of nanoparticles
When the fiber content was less than 1.2%, the durability indices of permeability resistance and cracking resistance increased with fiber content
Summary
Abstract: In the current investigation, the influence of polyvinyl alcohol (PVA) fibers on flowability and durability of cementitious composite containing fly ash and nanoSiO2 was evaluated. The results of Righi [18] concluded addition of rice husk ash with the content of 30% had positive influence on improving ductility and anti-cracking and decreasing heat at hydration and water absorption of ECC. Compared to the traditional cementitious composite, the durability of ECC is more excellent due to the addition of PVA fibers It is still necessary for the ECC used in the severe environment and strong corrosive environment to enhance its durability. There is little report about the systemic study on influence of PVA fiber on durability of cementitious composites incorporating SiO2 nano-particles. Investigation in these aspects is certainly necessary and helpful to promote the further usage of ECC incorporating nanoSiO2 particles. The present paper reports the influence of PVA fiber on durability of cementitious composites containing nano-SiO2
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