Hybrid cement based on the alkali activation of by-products of coal

Rivera Jhonathan F; Mejia Johanna M; Mejia de Gutierrez Ruby; Gordillo Marisol

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Hybrid cement based on the alkali activation of by-products of coal

机译：基于煤副产物碱活化的混合水泥

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This study focuses on the production of an alternative cementitious material with low environmental impact through the evaluation of two-coal combustion by-products. Hybrid cements based on the alkali activation of fly ash, (FA) and boiler slag (BS) blend with a proportion of Portland cement (OPC) up to 30% were produced. FA and BS contain an unburned material up to 16%. Response Surface Methodology (RSM) was used to optimize the compressive strength. BS geopolymer achieved high compressive strength (>100 MPa at 28 days) and FA geopolymer reached 30 MPa with thermal curing. The addition of OPC helped modify the curing method. In the case of hybrid based on FA (HFA), there was a significant increase in the compressive strength with levels ranging up to 65 MPa at 28 days without requiring a thermal curing.

机译：这项研究的重点是通过评估两煤燃烧副产物，生产对环境影响小的替代水泥材料。生产了基于粉煤灰（FA）和锅炉矿渣（BS）掺混物的硅酸盐水泥，其中硅酸盐水泥（OPC）的比例最高为30％。 FA和BS含有高达16％的未燃烧物质。响应面方法（RSM）用于优化抗压强度。通过热固化，BS地质聚合物获得了很高的抗压强度（在28天时> 100 MPa），FA地质聚合物达到了30 MPa。 OPC的添加有助于改进固化方法。在基于FA（HFA）的混合材料的情况下，抗压强度显着提高，在28天时的抗压强度高达65 MPa，而无需热固化。

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《Revista de la construccion》 |2014年第2期|共9页
作者
Rivera Jhonathan F; Mejia Johanna M; Mejia de Gutierrez Ruby; Gordillo Marisol;
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中图分类建筑科学;
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Hybrid binderfly ashboiler slagalkali-activated materialslow carbon footprint.;

机译：杂合粉煤灰锅炉炉渣碱活化材料的碳足迹低。;

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1. Hybrid cement based on the alkali activation of by-products of coal [J] . Rivera Jhonathan F, Mejia Johanna M, Mejia de Gutierrez Ruby, Revista de la construccion . 2014,第2期

机译：基于煤副产物碱活化的混合水泥
2. Thermo-alkali activation of talc for the production of a novel white one-part alkali-activated magnesia-based cement [J] . Abdel-Gawwad Hamdy A. Construction and Building Materials . 2021,第Nova1期

机译：Thermo-alkali活化滑石用于生产一种新型白色单部分碱活化氧化镁水泥的生产
3. Characterisation of ground hydrated Portland cement-based mortar as an additive to alkali-activated slag cement [J] . Rakhimova N. R., Rakhimov R. Z. Cement & concrete composites . 2015,第Null期

机译：磨碎的水合硅酸盐水泥基砂浆作为碱活化矿渣水泥添加剂的特性
4. PROPERTIES OF ALKALI-ACTIVATED CONCRETE BASED ON INDUSTRIAL WASTES OR BY-PRODUCTS [C] . MARTYNKOVA R, MAVROULIDOU M International Conference on Environmental Science and Technology . 2015

机译：基于工业废物或副产品的碱活化混凝土的性质
5. Precast, Prestressed Concrete Made with Fly Ash-Based Alkali-Activated Cement: Mixture Design and Procedure, Mechanical, and Structural Performance [D] . Magnuson, Grant P. 2021

机译：预制，预应力混凝土采用粉煤灰基碱活化水泥制成：混合物设计和程序，机械和结构性能
6. Experimental Study of the Mechanical and Microstructure Characteristics of Coal Gangue Road Stabilization Materials Based on Alkali Slag Cementation [O] . Changbai Wang, Junxin Yang, Shuzhan Xu 2021

机译：基于碱渣胶结的煤矸石道路稳定材料机械和微观结构特征的实验研究
7. Influence of different sources of coal gangue used as aluminosilicate powder on the mechanical properties and microstructure of alkali-activated cement [O] . B. J. Frasson, R. C.A. Pinto, J. C. Rocha 2019

机译：煤矸石用作铝硅酸盐粉末对碱活性水泥机械性能和微观结构的影响
8. Alkali Silica Reaction (ASR) in Cement Free Alkali Activated Sustainable Concrete. [R] . Li, Z., Thomas, R. J., Lazama, D., 2016

机译：碱土硅酸反应（asR）在无水泥碱活化可持续混凝土中的应用。

Hybrid cement based on the alkali activation of by-products of coal

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