The Micro Silicon Additive Effects on the Fine-Grassed Concrete Properties for 3-D Additive Technologies

Sergei V. Klyuev; Alexander V. Klyuev; E.S. Shorstova

doi:10.4028/www.scientific.net/MSF.974.131

Paper Titles

Theoretical Concepts of the Modification Effect on the Interparticle Energy of the Polymer-Mineral Dispersions for 3D Printing
p.107

Modification of Magnesia Binder with Iron Ore Concentrate
p.113

Joint Work of Cement Concrete and Composite Reinforcement with Periodic Profile Winding
p.119

Thermal Insulating and Constructive Foamed Concrete on a Composite Gypsum Binder
p.125

The Micro Silicon Additive Effects on the Fine-Grassed Concrete Properties for 3-D Additive Technologies
p.131

Zeolite-Containing Terra-Silicea as a Component of Composite Binders
p.136

The Composition and Properties of Autoclaved Gas Concrete with Amorphized Raw Modifiers
p.142

Development of Cement Compositions with a Finely Dispersed Additive for Consolidation of Soil by the Injection
p.149

To the Question of the Cement-Polymer Composite Materials’ Rheological Properties
p.156

HomeMaterials Science ForumMaterials Science Forum Vol. 974The Micro Silicon Additive Effects on the...

The Micro Silicon Additive Effects on the Fine-Grassed Concrete Properties for 3-D Additive Technologies

Abstract:

The effectiveness of silica fume for the fine-grained concrete used for 3-D technologies is proved in the give scientific paper. The advantages of silica fume using for concretes are presented. The mathematical modeling is used for the fine-grained concrete high-quality compositions’ development. The effectiveness of silica fume has been proved by the studies. The increase in the strength characteristics of concrete with the addition of silica fume is explained by the active pozzolan reaction, which starts when the concrete mix is mixed with water.

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Periodical:

Materials Science Forum (Volume 974)

Pages:

131-135

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.974.131

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Online since:

December 2019

Authors:

Sergei V. Klyuev*, Alexander V. Klyuev, E.S. Shorstova

Keywords:

3-D Technology, Additive, Fine Concrete, Silica Fume

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* - Corresponding Author

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