S. Praburanganathan scite author profile

This study inspects the viability of engaging the discarded paper wastes in concrete by varying the volume proportions from 0%–20% with each 5% increment in replacement of the weight of cement. A physiomechanical study was conducted, and the results were presented. A glass fiber reinforced rectangular slab with a longer span (ly) to shorter span (lx) ratio of (ly: lx) 1.16 was cast with optimum replacement of waste-paper mass and compared the force-deformation characteristics with the conventional concrete slab without waste paper. The optimum percentage of discarded papers for the replacement of cement is 5%. Also, the results imply that the compressive strength at the age of 28 days is 30% improved for the optimum replacement. Based on the outcomes of the investigation, it can be inferred that the compressive strength gets progressively reduced if the volume of the discarded paper gets increases. The incorporation of glass fibers improves the split and flexural strength of the concrete specimens considerably. The ultimate load-carrying capacity of the glass fiber reinforced waste paper incorporated concrete slab measured 42% lower than that of the conventional slab. However, development of the new type of concrete incorporating waste papers is the new trend in ensuring the sustainability of construction materials.

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The Impact of castoff aggregate on the fresh and mechanical behaviour of high-range water reducer administered self-compacting concrete

Mondikatti

Sudharsan

Praburanganathan

et al. 2023

Materials Today: Proceedings

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Value-added waste substitution using slag and rubber aggregates in the sustainable and eco-friendly compressed brick production

Praburanganathan

Chithra²,

Divyah³

et al. 2022

rdlc

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The current study aimed to analyse the viability of incorporating the post cryogenic discarded rubber and the air-cooled slag as an aggregate in partial replacement of stone dust in fly ash bricks production. A range of mechanical, non-destructive, and microstructural tests was performed on bricks thus produced by incorporating rubber and slag aggregates in various dosages (i.e., 5, 10, 15, 20 and 25% by stone dust weight). The result revealed that the compressive strength dropped from 71 to 43 % in the case of rubber aggregate replacement. Morphology study confirms that the rubber aggregates resulted in the porous microstructure of the bricks and leads to lesser unit weight and lighter structure. The rubber may be used as a lightweight aggregate in the brick possibly as it reduces the density of the final product. However, the use of rubber in bricks needs to be cautiously designed to get hold of productive solutions at the end. The findings demonstrate that the copper slag substitution of up to 15%, found to be enhanced the strength properties and it will be a better choice for low-cost construction as a promising alternative construction material.

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Experimental investigation on the fiber reinforced ash-based geopolymer concrete with Musa basjoo fibers

Reddy

Praburanganathan

Mishra

2022

Materials Today: Proceedings

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Synergy of waste glass powder and waste rubber: a research on loading, perseverance and morphological features of unburnt fly-ash-based masonry units

Praburanganathan¹,

Chithra²

2020

Mater. Tehnol.

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In the current context of the construction sector, the prospect and promotion of diverse industry and municipal waste-based materials are affianced to advance eco-friendly and more sustainable products. With this motto, the study aimed to investigate the synergistic effects of utilizing the crumb rubber from discarded waste tyres and finely ground glass powder from municipal waste glass in the production of unburnt bricks engaging a uniaxial pressing technique. The experiments conducted by mixing the rubber aggregates at 0-25 % with the stone dust and glass powders were blended with 0-25 % with the fly ash. The fly ash and stone dust volumes were fixed as 60 % and 25 %. The elemental composition of the raw materials and the morphology were studied using EDS and SEM. The physio-mechanical properties such as dry density, compressive strength, split tensile, modulus of rupture and perseverance studies such as water absorption, initial rate of absorption, capillary water-absorption coefficients using sorptivity study, efflorescence and direct UPV measurements evaluated and the results presented. In contrast to the earlier studies reported in the literature for the usage of rubber aggregates, the results of the current study reveal that the usage of rubber aggregates synergistic with glass powder enhance the compressive strength, split tensile and modulus of rupture of 2 %,11 % and 16 % for the substitute level of 10 % of both the waste materials. The better correlation observed in direct UPV Measurements with compressive strength. The density of the final developed products shows an 11 % reduced density for the optimum addition of both the materials leads to lightweight brick production. Saturated water absorption of the developed mixes were within the limits prescribed by Indian thresholds. The developed materials fulfill the requirement of Indian specifications to use as masonry units. Keywords: brick, fly ash, glass powder, rubber Glede na trenutne trende v gradbeni{tvu, pospe{evanje ostale industrije in obilico odpadnih materialov, ki nastajajo v mestih, je potrebno najti in razvijati nove ekolo{ko napredne in bolj trajnostno naravnane proizvode. Avtorji so s tem ciljem izvedli {tudijo in raziskavo sinergijskih u~inkov uporabe zdrobljene gume iz odpadnih gum in fino mletega steklenega prahu iz odpadnega mestnega stekla v proizvodnji ne`gane opeke z uporabo tehnike enoosnega stiskanja. Preizkuse so izvajali z me{anjem od 0 % do 25 % gumijastih agregatov, kamnitega in steklenega prahu ter od 0 % do 25 % dimni{kega pepela. Dele`dimni{kega pepela in kamnitega prahu sta bila fiksna na 60 % oz. 25 %. Elementarno sestavo vhodnih surovin in njihovo morfologijo so {tudirali z uporabo energijske disperzijske spektroskopije (EDS) in vrsti~nega elektronskega mikroskopa (SEM). V~lanku avtorji predstavljajo oceno in rezultate fizikalno-mehanskih lastnosti, kot so: suha gostota, tla~na in cepilno-natezna trdnost, modul poru{itve in {tudijo obstojnosti-absorpcija vode, za~etna hitrost absorpcije, koeficienti kapilarne absorpcije...

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