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Erschienen in:
Recent Advances in Structural Engineering—An Introduction Kapitel lesen Erstes Kapitel lesen

2024 | OriginalPaper | Buchkapitel

Impact of Jute Fibre, Sugarcane Bagasse Ash and Nano Alumina on Mechanical Properties of Concrete

verfasst von : Insha Jee, Balwinder Lallotra

Erschienen in: Recent Advances in Structural Engineering

Verlag: Springer Nature Singapore

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Abstract

To date, numerous investigations have been conducted on supplementary cementitious materials (SCM'S) to enhance the properties of concrete. These SCM’S not only decreased cement and aggregate consumption but also lowered the environment issues. This research conducted the study on the ternary combination of sugarcane bagasse Ash (SCBA), Jute Fibre (JF) and Nano alumina. The focus of the current study is to investigate the mechanical properties of concrete on replacing cement with different percentages of bagasse ash (0, 5, 10, 15 and 20%). Jute Fibre proportions were utilized as 0.15, 0.25, 0.35 and 0.45% for partial replacement of cement at optimum dosage of bagasse ash (BA). Compressive strength [CS], [STS] Split tensile strength, and [FS] flexural strength of the hardened composites were examined. To investigate the further improvement in strength properties of concrete, Nano Al2O3 percentages of 0.75, 1.75 and 2.75% were incorporated into the Mix by volume of mortar. A water-cement ratio (0.4) was held constant. The findings showed that 1.75% Nano alumina based concrete with 10% Bagasse Ash and 0.25% Jute Fibre outperforms all other concretes in terms of strength characteristics.

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Vorheriges Kapitel Performance Studies on Structural Floor Systems—an Analytical Approach
Nächstes Kapitel Experimental and Numerical Study on Flexural Behaviour of Deep Beam with Circular Openings Under Static Loading
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Metadaten
Titel
Impact of Jute Fibre, Sugarcane Bagasse Ash and Nano Alumina on Mechanical Properties of Concrete
verfasst von
Insha Jee
Balwinder Lallotra
Copyright-Jahr
2024
Verlag
Springer Nature Singapore
Buch
Recent Advances in Structural Engineering

Print ISBN: 978-981-9995-01-1

Electronic ISBN: 978-981-9995-02-8

Copyright-Jahr: 2024

DOI
https://doi.org/10.1007/978-981-99-9502-8_27