Feasibility of waste marble powder in concrete as partial substitution of cement and sand amalgam for sustainable growth

The process of cement manufacturing contributes to greenhouse gas emission which is responsible for producing global warming. The use of industrial by-products like coal ash, waste plastics, rubber tire scrap, waste glass, foundry sand, marble powder and so forth in place of cement, sand can lead to...

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Bibliographic Details
Published in:Journal of Building Engineering 2018-01, Vol.15, p.236-242
Main Author: Ashish, Deepankar Kumar
Format: Article
Language:English
Subjects:
Carbonation
Cement
Durability
Sand
Waste marble powder
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Summary:The process of cement manufacturing contributes to greenhouse gas emission which is responsible for producing global warming. The use of industrial by-products like coal ash, waste plastics, rubber tire scrap, waste glass, foundry sand, marble powder and so forth in place of cement, sand can lead to sustainable development. Out of different wastes studied yet waste marble powder is a substance that has not been investigated for sand and cement amalgam in concrete. Disposal of marble waste from construction industry exhibits a substantial economic wastage and environmental burden. The aim of the study is to investigate the feasibility of waste marble powder as partial replacement of sand and cement amalgam. The seven variant concrete mixtures were made by partially replacing marble powder (up to 15%) in place of sand; cement and amalgam were evaluated for the mechanical strength, ultrasonic velocity (UPV), carbonation and microstructure analysis. Marble powder exhibited no function in hydration process; moreover, it acts as a filler. Optimal replacement was noticed with 10% sand and 10% cement amalgam by 20% marble powder. [Display omitted] •Re-use of waste marble powder in concrete lead to sustainable development.•Waste marble powder used upto 30% in replacement of cement and sand amalgam.•Cement and sand amalgam replacement showed better performance in concrete.•Carbonation decreases on replacement of sand and cement amalgam in concrete.
ISSN:2352-7102
2352-7102
DOI:10.1016/j.jobe.2017.11.024