Paper Titles

The Possibility of Using the Ultra-Thin Liquid Thermal Insulation to Insulate the Ceiling above the Basement in Residential Buildings
p.1013

Influence of High-Calcium Ash Composition on the Composite Binders’ Properties
p.1019

Geo-Composite Drainage Material for Hydro-Technical and Civil Engineering
p.1025

New Types of Geo-Composite Materials for Anti-Filtration Systems
p.1031

Technology of 3D Printing of Light Ceramics for Construction Products
p.1038

The Use of Overburden Clay in Ceramic Production
p.1044

Serpentinite Magnesium Binders, Based on Technogenic Raw Materials
p.1050

Method of Metallurgical Production Waste Processing
p.1055

Hardening Cement Conglomerates by Mining Industries Waste
p.1061

HomeSolid State PhenomenaSolid State Phenomena Vol. 316Serpentinite Magnesium Binders, Based on...

Serpentinite Magnesium Binders, Based on Technogenic Raw Materials

Article Preview

Abstract:

Increasing water resistance and mechanical strength of hardening magnesian binders’ products can be achieved by introducing microfillings into a hardening dispersed system. It is shown that serpentine provides an increase strength and water resistance in hydration and hardening process, being as a structure-forming component, it intensifies this process. It allows expanding the raw material base for the production of magnesia binders for construction purposes.

You might also be interested in these eBooks

Materials Engineering and Technologies for Production and Processing VI

Info:

Periodical:

Solid State Phenomena (Volume 316)

Pages:

1050-1054

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.316.1050

Citation:

Cite this paper

Online since:

April 2021

Authors:

Valentina N. Zyryanova*, Evgeniya V. Lytkina, Arzana P. Ochur-Ool

Keywords:

Magnesian Binders, Mineral Fillers, Serpentinites

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2021 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] V.I. Vereshchagin, Water-resistant mixed magnesia-oxychloride cements, Glass and Ceramics. 54 (1997) 368-372.

DOI: 10.1007/bf02768185

[2] I.V. Kashchuk, V.I. Vereshchagin, Water-resistant combined magnesium-containing binders using iron-containing diopside rocks, University News. Construction. 6 (1998) 53-58.

[3] V.N. Zyryanova, G.I. Berdov, V.I. Vereshchagin, S.V. Erdman, Magnesia-diopside binder, based on diopside waste. University News. Construction. 4 (2007) 48-51.

[4] G.N. Volodkin, T.K. Akchurin, Raw materials use of the Volgograd region in the technology of building materials (state and prospects), Reliability and durability of building materials and structures. 2 (2000) 3-9.

[5] O.A. Belimova, A magnesian binder, based on sludge from a bisulfite solution-waste from the pulp and paper industry, Dis. ... cand. tech. sciences, Moscow, (1999).

[6] T.A. Plekhanova, Magnesia Composite Materials Modified with Sulfate Additives Uch. Art. Ph.D., Kazan, (2005).

[7] L.Ya. Kramar, T.N. Chernykh, A.A. Orlov, V.V. Prokofiev, The use of serpentine waste from chrysotile asbestos mining in the production of building materials, Dry construction mixtures. 2 (2011) 14-16.

[8] V.N. Zyryanova, G.I. Berdov, V.I. Vereshchagin, Physicochemical processes and technology for producing composite magnesia binders using magnesium silicate fillers, Technique and technology of silicates. 1 (2010) 12-19.

[9] T.N. Chernykh, Features of obtaining magnesia-oxychloride cement, based on serpentine-containing rocks, Science and Research. 20 (2012) 16-26.

[10] V.N. Zyryanova, E.V. Lytkina, G.I. Byrd, The effect of mineral fillers on the properties of magnesia binders, Technique and technology of silicates. 2 (2010) 2-6.

[11] V.A. Guriev, The use of magnesium-containing technogenic raw materials in the production of decorative ceramics, Glass and ceramics. 4 (2009) 95-98.

DOI: 10.1007/s10717-009-9141-7

[12] G. Guan, H. Wa, Investigation of the stable phases of magnesia-oxychloride cement, Journal of Harbin Engineering University. 30 (2009) 1213-1218.

[13] I. Karimi, A. Monshi, Investigation of the magnesium chloride concentration effect on the mechanical and hydrated properties of Sorel cement, Journal of Ceramic Process Studies. 13 (2012) 725-729.

[14] S. Wang, R. Weng, Yu. Zhu, H. Lee, Yu. Hai, Influence of EVA-latex on the composition properties of fiberglass-magnesia-oxychloride cement, Journal of Yuhan University of Technology, Materials of scientific education. 21 (2006) 138-142.

[15] L. Yin, Yu. Hongfa, Z. Lina, Yu. Jing, V. Chengyu, T. Yuongshan, Mechanical properties of magnesia-oxychloride cement composition, fly ash and granite waste, Construction and building materials. 38 (2013) 1-7.

[16] O.A. Miryuk, Prospects for the use of waste in the technology of magnesian building materials, Science and the world. 11 (2014) 41-45.

[17] D.A. Geodakyan, New materials and products, based on local raw materials, Chem. g. Armenia. 57 (2004) 28-35.

[18] V.N. Smirenskaya, V.I. Vereshchagin, Prospects for the use of Siberian zeolite rocks in silicate materials, Glass and ceramics. 12 (2002) 28-32.

[19] W.L. Bragg, G.F. Claringbull, The crystal structure of minerals, Mir, Moscow, (1967).

[20] V.S. Gorshkov, V.V. Timashev, V.G. Savelyev, Physic-chemical analysis methods of binders: Textbook, Higher School, Moscow, (1981).