A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Eco-efficient blended cements with high volume supplementary cementitious materials
The ways of reducing CO2 emissions in the cement industry were analysed for the purposes of implementation of the low carbon development strategy. The optimal solution to this problem is the technologically optimised blended cements with high volume of supplementary cementitious materials of various genesis and fineness. The design of eco-friendly blended cements was achieved by a synergistic combination of the main constituents such as granulated blast furnace slag, superfine zeolite, fly ash and limestone, as well as by optimisation of the their granulometric composition, taking into account their bimodal particle size distribution by volume and surface area. Moreover, the article presents the technical, environmental and economic benefits of using eco-efficient blended cements.
Eco-efficient blended cements with high volume supplementary cementitious materials
The ways of reducing CO2 emissions in the cement industry were analysed for the purposes of implementation of the low carbon development strategy. The optimal solution to this problem is the technologically optimised blended cements with high volume of supplementary cementitious materials of various genesis and fineness. The design of eco-friendly blended cements was achieved by a synergistic combination of the main constituents such as granulated blast furnace slag, superfine zeolite, fly ash and limestone, as well as by optimisation of the their granulometric composition, taking into account their bimodal particle size distribution by volume and surface area. Moreover, the article presents the technical, environmental and economic benefits of using eco-efficient blended cements.
Eco-efficient blended cements with high volume supplementary cementitious materials
Myroslav Sanytsky (author) / Tetiana Kropyvnytska (author) / Hanna Ivashchyshyn (author) / Оksana Rykhlitska (author)
2020
Article (Journal)
Electronic Resource
Unknown
eco-efficient blended cements , supplementary cementitious materials , superfine zeolite , particle size distribution , synergistic combination additives , Architecture , NA1-9428 , Engineering (General). Civil engineering (General) , TA1-2040 , Industrial engineering. Management engineering , T55.4-60.8
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