REDUCING THE CARBON FOOTPRINT BY MAKING GEOPOLYMER MATERIALS FOR CEMENT-FREE CONSTRUCTION BASED ON WASTE AND INDUSTRIAL BY-PRODUCTS

Bogdan Valentin Paunescu; Eniko Volceanov; Lucian Paunescu

REDUCING THE CARBON FOOTPRINT BY MAKING GEOPOLYMER MATERIALS FOR CEMENT-FREE CONSTRUCTION BASED ON WASTE AND INDUSTRIAL BY-PRODUCTS

Authors

Bogdan Valentin Paunescu Consitrans SA Bucharest
Eniko Volceanov National University of Science and Technology POLITEHNICA Bucharest
Lucian Paunescu Daily Sourcing & Research SRL Bucharest

Keywords:

geopolymer concrete, alumina-silicate binder, granulated slag, recycled concrete, metakaolin

Abstract

High-strength cement-free geopolymer concrete with 62.9 MPa (after 28 curing days) was experimentally produced from blast furnace slag, recycled concrete, and metakaolin as alumina-silicate binders as well as silica fume as silica-rich ultra-fine powder. Combining slag with metakaolin and silica fume allowed to increase its proportion up to 58.1 wt. %, without affecting shrinkage and hardness. Residual concrete from demolition was also used for making the geopolymer concrete as coarse aggregate as well as alumina-silicate binder together with fly ash, but not with granulated slag, metakaolin, and silica fume, this constituting the paper originality.

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Published

2024-03-29

Issue

Vol. 28 No. 1 (2024): Nonconventional Technologies Review

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Articles

How to Cite

REDUCING THE CARBON FOOTPRINT BY MAKING GEOPOLYMER MATERIALS FOR CEMENT-FREE CONSTRUCTION BASED ON WASTE AND INDUSTRIAL BY-PRODUCTS. (2024). Nonconventional Technologies Review, 28(1). https://revtn.ro/index.php/revtn/article/view/457

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REDUCING THE CARBON FOOTPRINT BY MAKING GEOPOLYMER MATERIALS FOR CEMENT-FREE CONSTRUCTION BASED ON WASTE AND INDUSTRIAL BY-PRODUCTS

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