Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Concrete with glass powder as a partial replacement for cement
The cement companies manufacture a substantial amount of carbon dioxide, aninfluential greenhouse-gas that contributes to global warming. Cement manufacturing generates greenhouse gases both intrinsically and extrinsically: direct CO2 emissions occur during heating from limestone, while indirect CO2 emissions occur during the burning of fossil fuels used to heat the kiln. The cement business contributes around 8% of worldwide co2 Emissions, making this a key industry in terms of determine the precise reduction efforts. This research examines the feasibility of utilizing glass powder as a partial substitute for cement in compositions (10 %, 20 percent%, 30 percent%, 40 % and 50 %). The compressive split tensile strength among these compositions were determined after 7, 14, and twenty-eight days of complete curing, and findings of the same were associated to those of normal concrete. We discovered that replacing 20% of the glass powder with cement resulted in a 23 percent increase in strength, whereas replacing 30% and 40% of the component resulted in the same strength as M25. The composition usage of glass powder in the concrete reduces the cement consumption which inturn reduces the global warming effect and is also environmentally friendly.
Concrete with glass powder as a partial replacement for cement
The cement companies manufacture a substantial amount of carbon dioxide, aninfluential greenhouse-gas that contributes to global warming. Cement manufacturing generates greenhouse gases both intrinsically and extrinsically: direct CO2 emissions occur during heating from limestone, while indirect CO2 emissions occur during the burning of fossil fuels used to heat the kiln. The cement business contributes around 8% of worldwide co2 Emissions, making this a key industry in terms of determine the precise reduction efforts. This research examines the feasibility of utilizing glass powder as a partial substitute for cement in compositions (10 %, 20 percent%, 30 percent%, 40 % and 50 %). The compressive split tensile strength among these compositions were determined after 7, 14, and twenty-eight days of complete curing, and findings of the same were associated to those of normal concrete. We discovered that replacing 20% of the glass powder with cement resulted in a 23 percent increase in strength, whereas replacing 30% and 40% of the component resulted in the same strength as M25. The composition usage of glass powder in the concrete reduces the cement consumption which inturn reduces the global warming effect and is also environmentally friendly.
Concrete with glass powder as a partial replacement for cement
Dasarathy (Autor:in) / Selvi, Tamil (Autor:in) / Ilango, Ponkumar (Autor:in) / Poluraju, Palleboina (Herausgeber:in) / Jeelani, Syed Hamim (Herausgeber:in) / Kumar, J Durga Chaitanya (Herausgeber:in) / Reddy, M Achyutha Kumar (Herausgeber:in) / Raja, K Hemantha (Herausgeber:in)
ADVANCES IN SUSTAINABLE CONSTRUCTION MATERIALS ; 2022 ; Guntur, India
AIP Conference Proceedings ; 2759
04.05.2023
6 pages
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
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