Evaluation of slag/fly ash based geopolymer concrete with steel, polypropylene and polyamide fibers
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Date
2022Author
Kuranlı, Ömer FarukUysal, Mücteba
Abbas, Mele Tidjani
Çoşgun, Turgay
Niş, Anıl
Aygörmez, Yurdakul
Canpolat, Orhan
Al-Mashhadani, Mukhallad M.
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Geopolymer composites have become an essential product to reduce CO2 emissions, which is an important
problem today and ensures green sustainability. With the increasing concerns with global climate change, studies
on geopolymer have also increased. The addition of different fibers also has essential potential for increasing the
performances of geopolymer composites. Within the scope of this study, it is aimed to produce a green sustainable product as an alternative to traditional concrete by producing different fiber-reinforced geopolymer
concrete. In this study, slag-fly ash-based geopolymer concretes reinforced with three different fiber types
(Polypropylene (PP), steel (ST), and polyamide (PA)) were produced and the mechanical properties such as
compressive, tensile, drying shrinkage and flexural behavior were investigated. Furthermore, elevated temperature (300, 600 and 900-celsius degrees) and freeze-thaw (250 cycles) tests were carried out within the scope of
durability properties. Microstructural analyzes were also carried out to understand the matrix composition.
Experimental test results revealed that fiber reinforcement improved some of the strength properties, but was
ineffective for some properties. The addition of polypropylene and steel fibers significantly improved the flexural
toughness factor value (1469% and 566%, respectively) of geopolymer concretes, while this rate of improvement
remained quite low (46%) in the polyamide fiber reinforced geopolymer series. According to shrinkage test
values, 50S50FA08ST sample ranged from 264 to 297 microstrains. Also, PP fibers increased the initial crack
load from approximately 4500 N to 6750 N and the deflection values significantly improved by reaching the
deflection values of 7.5 mm. Moreover, the compressive strength values after 900 ◦C was obtained as 11–12 MPa
for steel fiber reinforced geopolymer concretes. But the freeze–thaw experiments generally revealed that fiber
addition did not contribute to the improvement of strength properties.
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