Applied Sciences, Volume (11), No (20), Year (2021-10) , Pages (9696-9716)

Title : ( Properties of Fibre-Reinforced High-Strength Concrete with Nano-Silica and Silica Fume )

Authors: Arash Karimipour , Mansour Ghalehnovi , Mahmoud Edalati , Jorge de Brito ,

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Abstract

This study intends to assess the influence of steel fibres (SF) and polypropylene fibres (PPF) on the hardened and fresh state properties of high-strength concrete (HSC). For this purpose, 99 concrete mixes were designed and applied. SF and PPF were used at six-volume replacement contents of 0%, 0.1%, 0.2%, 0.3%, 0.4% and 0.5%. Moreover, nano-silica (NS) was used at three contents, 0%, 1% and 2%, and silica fume powder (SP) was also used at three weight ratios (0%, 5% and 10%). The slump, compressive and tensile strength, elasticity modulus, water absorption and the electric esistivity of concrete specimens were examined. The results showed that using 1% NS and 10% SP together with 0.5% PPF improved the compressive strength of HSC by about 123%; however, the effect of SF on tensile strength is more significant and adding 0.5% SF with both 2% NS and 10% SP increased the tensile strength by 104%. Moreover, increasing the SF content reduces the electric resistivity while using PPF improves this property especially when 1% NS was employed, and it was enhanced by about 68% when 0.5% SF and 1% NS were utilized with 10% SP.

Keywords

, polypropylene fibres; steel fibres; nano, silica; silica fume; high, strength concrete
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@article{paperid:1086846,
author = {Arash Karimipour and Ghalehnovi, Mansour and Mahmoud Edalati and Jorge De Brito},
title = {Properties of Fibre-Reinforced High-Strength Concrete with Nano-Silica and Silica Fume},
journal = {Applied Sciences},
year = {2021},
volume = {11},
number = {20},
month = {October},
issn = {2076-3417},
pages = {9696--9716},
numpages = {20},
keywords = {polypropylene fibres; steel fibres; nano-silica; silica fume; high-strength concrete},
}

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%0 Journal Article
%T Properties of Fibre-Reinforced High-Strength Concrete with Nano-Silica and Silica Fume
%A Arash Karimipour
%A Ghalehnovi, Mansour
%A Mahmoud Edalati
%A Jorge De Brito
%J Applied Sciences
%@ 2076-3417
%D 2021

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