Issue |
E3S Web of Conf.
Volume 529, 2024
International Conference on Sustainable Goals in Materials, Energy and Environment (ICSMEE’24)
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Article Number | 01026 | |
Number of page(s) | 13 | |
Section | Materials | |
DOI | https://doi.org/10.1051/e3sconf/202452901026 | |
Published online | 29 May 2024 |
Experimental study on flexural strength of slurry infiltrated fibrous concrete (SIFCON) produced with various percentages of waste steel fibers recovered from used tires
1 Department of Civil Engineering, SVU College of Engineering, Sri Venkateswara University, Tirupati 517502, India
2 National Atmospheric Research Laboratory (NARL), Gadanki 517112, India
* Corresponding author: raviprasadvssc@gmail.com
Slurry Infiltrated Fibrous Concrete (SIFCON), a modified version of Fiber Reinforced Concrete (FRC), addresses the challenge of increased fiber volume fractions. Commercially produced steel fibers are typically used in FRC and SIFCON. Efforts to reduce energy use in making commercial steel fibers have led to seeking alternative sources. Vehicular tires are typically recycled when no longer usable, yielding steel fibers among the products. Emphasis lies in recovering steel fibers from used tires as part of resource recovery from waste. Experimental work explored flexural strength in SIFCON with waste steel fibers at volumes from 4% to 7%. The study extended to assess SIFCON’s flexural strength with commercial steel fibers at similar volumes, aiming to correlate with those from waste steel fibers. M20 grade concrete and SIFCON slurry matrix specimens were cast as reference mixes for comparison. The flexural strength of SIFCON specimens with waste steel fibers recovered from used tires notably surpasses that of reference mixes and is comparable to SIFCON specimens with commercial steel fibers. Additionally, the two-layer technique proves effective in SIFCON using waste steel fibers from used tires, up to 6% volume. The test results show successful production of SIFCON from waste steel fibers recovered from used tires.
Key words: Slurry Infiltrated Fibrous Concrete / Flexural strength / Waste steel fibers / Aspect ratio
© The Authors, published by EDP Sciences, 2024
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