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2024 | OriginalPaper | Buchkapitel

Experiment Study of Concrete by Supplanting the Aggregates with Ceramic Floor Waste

verfasst von : Rajesh Goyal, Sandeep Kumar Chandel

Erschienen in: Sustainable Design and Eco Technologies for Infrastructure

Verlag: Springer Nature Singapore

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Abstract

Climate and environmental change are significant problems all over the world. Today, it is sought after to make a manageable progress. Economic progress can be achieved by reexamining, reconsidering, reducing, and reusing. Because of its architecture, monetary, eco-friendly, and green restitutions, modern concrete consumes a lot of waste material (glass, plastic, slag, fly debris, and so on). As a result, repurposing waste materials in solid construction are extremely beneficial in achieving the manageability target. Waste material use will reduce the use of characteristic aggregates. Waste can help in maintaining the natural balance in this way. In the current study, creative tile squander was used as construction squander. In large-scale ventures, tile waste is a main problem. In India, tile waste, like other construction waste, is a problem to remove. This study is based on the presentation of three different cement blends with different proportions of squashed, waste tiles with a maximum size of 20 mm. Three mix used were M20, M25, and M30. Each bunch had its own blend setup. Cubes of concrete were casted with a waste replacement of 0, 7, 14, and 21% ceramic tile waste. Test was conducted on concrete, fine aggregates, and course aggregates. A total of 06 cubes were casted for each group. Experiment study shows that in the grade of the M30, there was no much effect on compressive strength when 21% alternate of ordinary 20-mm coarse aggregates with tile aggregate.

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Literatur
1.
Zurück zum Zitat Ioannou PG, Liu LY. Advanced Construction Technology System—ACTS By P. G. Ioannou, 1 A. M. ASCE, and L. Y. Liu, 2 A. M. ASCE Ioannou PG, Liu LY. Advanced Construction Technology System—ACTS By P. G. Ioannou, 1 A. M. ASCE, and L. Y. Liu, 2 A. M. ASCE
2.
Zurück zum Zitat Binici, cause of compacted ceramic and basaltic pumice as FA on concrete mortars property. Constr Build Mater 21:1191–1197 (2007) Binici, cause of compacted ceramic and basaltic pumice as FA on concrete mortars property. Constr Build Mater 21:1191–1197 (2007)
3.
Zurück zum Zitat de Brito J, Pereira AS, Correia JR (2005) Mechanical performance of non-structural concrete prepared with recycled ceramic aggregates. Cem Concr Compos de Brito J, Pereira AS, Correia JR (2005) Mechanical performance of non-structural concrete prepared with recycled ceramic aggregates. Cem Concr Compos
4.
Zurück zum Zitat Shetty MS. Concrete technology. S. Chand Publishing Shetty MS. Concrete technology. S. Chand Publishing
5.
Zurück zum Zitat Effect of replacing natural coarse aggregate by brick aggregate on the properties of concrete. DUET J 1(3), (2012) Effect of replacing natural coarse aggregate by brick aggregate on the properties of concrete. DUET J 1(3), (2012)
6.
Zurück zum Zitat IS 10262 (2009) IS concrete mix proportioning—guidelines, 1st revision. BIS, New Delhi, India IS 10262 (2009) IS concrete mix proportioning—guidelines, 1st revision. BIS, New Delhi, India
7.
Zurück zum Zitat IS 383 (1970) Specifications for coarse & FA from natural sources for concrete, 2nd revision. BIS, New Delhi, India IS 383 (1970) Specifications for coarse & FA from natural sources for concrete, 2nd revision. BIS, New Delhi, India
8.
Zurück zum Zitat IS 456 (2000) Plain and reinforced concrete—code of practice, 4th revision. BIS, New Delhi, India IS 456 (2000) Plain and reinforced concrete—code of practice, 4th revision. BIS, New Delhi, India
Metadaten
Titel
Experiment Study of Concrete by Supplanting the Aggregates with Ceramic Floor Waste
verfasst von
Rajesh Goyal
Sandeep Kumar Chandel
Copyright-Jahr
2024
Verlag
Springer Nature Singapore
DOI
https://doi.org/10.1007/978-981-99-8465-7_24