Putty on the Base of a Modified Silicate Binding Agent

Valentina Loganina

doi:10.4028/www.scientific.net/KEM.736.161

Paper Titles

Application of Novikov Gears, Gear Processing Techniques and Enhanced Possibilities of their Production
p.138

Control of the Condition and Preparation of Surfaces with Heterogeneous Characteristics for Electrolytic Chrome-Plating
p.143

New Damage Criteria for Machining Considering Contact Friction for FE Analysis
p.147

On the Peculiarities of the Circular Cutter Geometry Applied for Cutting the Wheels of Novikov’s Gearings
p.153

Putty on the Base of a Modified Silicate Binding Agent
p.161

Heat-Resistant Porous Composite Based on Ordinary Clay for Thermal Insulation of Hot Surfaces
p.166

Improvement of Truss Bearing Capacity by Means of Rhombic Pipes
p.171

Use of Natural Zeolite in Systems for Separation and Purification of Gas Mixtures Containing Methane
p.179

Composite-Sorbent Based on Natural Mineral and Waste of Biological Treatment of Wastewater (Effluent)
p.183

HomeKey Engineering MaterialsKey Engineering Materials Vol. 736Putty on the Base of a Modified Silicate Binding...

Putty on the Base of a Modified Silicate Binding Agent

Abstract:

The article provides an overview of manufacturing a binding agent via combined grinding a silicate lump and calcium chloride. The data on the mineralogical composition of a mechanically activated binding agent are presented. The paper also describes composition and properties of putty on the base of a modified binding agent, which is intended for interior finishing operations in buildings.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 736)

Pages:

161-165

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.736.161

Citation:

Cite this paper

Online since:

June 2017

Authors:

Valentina Loganina*

Keywords:

Binding Agent, Chemical Activation, Mechanical Activation, Plastic Strength, Putty, Silicate Lump, Water Glass

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Y.G. Frolov, Course of Colloid Chemistry (Surface phenomena and dispersions): a textbook for higher schools, M.: Chemistry, (1982).

Google Scholar

[2] R.R. Ayler, Chemistry silica, M.: World, (1982).

Google Scholar

[3] V.I. Loganina, A.D. Ryzhov, Structure and properties of synthesized additive based on amorphous aluminosilicates, Case Studies in Construction Materials. 3 (2015) 132-136.

DOI: 10.1016/j.cscm.2015.10.005

Google Scholar

[4] V.I. Loganina, O.A. Davydova, The Use of Silica Sol in the Lime Formulations for Restoration of Buildings, Contemporary Engineering Sciences. 28 (2014) 1523-1529.

DOI: 10.12988/ces.2014.49184

Google Scholar

[5] A.N. Sapelin, A.D. Zhukov, I.V. Bessonov, R.M. Mustafayev, Composite materials with controlled porosity, Industrial and civil construction. 6 (2014) 58-61.

Google Scholar

[6] V.I. Loganina, A.A. Kapralov, M.A. Alirzayev, N.V. Lashchenko, G.P. Pavlov. Putty. Copyright certificate number 933 652 (USSR). Published on 07. 06. 1982 Bulletin №21.

Google Scholar

[7] V.I. Loganina, J .P. Skachkov,V. Demyanova and T.V. Uchaeva, Organo-mineral additive based on Mixed Clays, Key Engineering Materials. 723 (2016) 849.

DOI: 10.4028/www.scientific.net/kem.723.849

Google Scholar

[8] V.M. Khrulev, G.N. Shibaeva , M.V. Tkachenko, Finishing compositions for alignment of surface concrete, Abakan: Publishing house Hakaskoe, (1977).

Google Scholar

[9] V.I. Loganina, O.A. Davydova, L.V. Makarova, R.V. Tarasov, Forming Composite Strength in the Presence of Lime Silica Sol, Contemporary Engineering Sciences. 36 (2014) 1975-(1981).

DOI: 10.12988/ces.2014.411240

Google Scholar

[10] U. Schubert, Silica-based and transition metal-based inorganic-organic hybrids materials–a comparison, Sol-Gel Sci. Tech. 26 (2003) 47-55.

Google Scholar

[11] V.I. Loganina, A.M. Isaeva, Finishing compositions based on silicate –lumps, News of Higher Schools. Building. 11(2000) 45-47.

Google Scholar