Lithosphere Protection with Hardening Phosphate-Containing Soil-Cement Technology
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2018-09-27 
https://doi.org/10.14419/ijet.v7i4.7.23029
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geoecoprotection, phosphate-containing cement systems, physico-chemical process, properties of phosphate clay material, detoxification -
This research is relevant in the light of a need to protect lithosphere from pollution. A solution to this problem can be the exercise of a geoecoprotective function by using building and construction technologies. Phosphate-containing bonding agents usually have low solubility in water. They are made of aluminosilicates that occur in common clay. These minerals react with phosphoric acid to release phosphates and silica gel with absorption properties. The purpose of this research is to make fake rocks from phosphate clay material, intended for building and construction purposes, and to investigate their longevity. The material used was treated to neutralize and detoxify the mobile ionic contaminants and heavy metal compounds, as well as petroleum pollutants, so that at the end we could get construction material like fake rocks or improved aggregates that would be good for the environment. These cement systems are called the geoecoprotective systems. The leading methods that were applied were thermodynamic and experimental studies of service and geoecoprotective properties of phosphate-containing cement systems, more specifically fake landscape rocks. Selected studies lasted for more than 10 years, and were carried out in accordance with the guidelines, adopted in the Russian Federation. This research shows that phosphate-containing cement systems made from contaminated clay/sandy artificial soils have long-lasting properties like strength, frost resistance, water resistance and contaminant binding. From this perspective, they are good for building and construction. For example, they can be used to improve the contaminated soil on road construction sites by detoxifying it until water-resistant products, and to make long-lasting water-resistant solutions from local raw materials that would be good for waste storage.
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References
[1] Svatovskaya, L. B., Kabanov, A. A., Sychov, M. M. "The Improvement of Foam Concrete Geoecoprotective Properties in Transport Construction." IOP Conference Series: Earth and Environmental Science. Vol. 90. No. 1. IOP Publishing, 2017.
[2] Svatovskaya, L. B., Kabanov, A. A., Sychov, M. M. "Lithosynthesis of the properties in the transport construction on the cement base." IOP Conference Series: Earth and Environmental Science. Vol. 90. No. 1. IOP Publishing, 2017.
[3] Svatovskaya, L. B., Kabanov, A. A., Sychov, M. M. "Soling, Aerating and Phosphating for Soil Strengthening and Detoxication." Procedia engineering 189. 2017. 398-403.
[4] Svatovskaya, L. B., Urov, O. V., Kabanov, A. A. "Geoecoprotective technology of transport construction using silica sol absorption method." Procedia engineering 189. 2017. 454-458.
[5] Svatovskaya, L. B., Shershneva, M. V., Baidarashvili, M. M., Yakimova, N. I., Khitrov, A. V. "Foam concrete construction demolished waste." Sustainable Waste Management and Recycling: Construction Demolition Waste: Proceedings of the International Conference Organised by the Concrete and Masonry Research Group and Held at Kingston University-London on 14-15 September 2004. Thomas Telford, 2004.
[6] Svatovskaya, L. B., Sakharova, A. S, Baidarashvilly, M. M., Petriaev, A. V. "Building wastes and cement clinker using in the geoecoprotective technologies in transport construction, Computer Methods and Recent Advances in Geomechanics." Proceedings of the 14th Int. Conference of International Association for Computer Methods and Recent Advances in Geomechanics, IACMAG. 2014.
[7] Sychova, A. M., Svatovskaya, L. B., Mjakin, S. V., Vasiljeva, I. V. “Modification of fillers for cements (Book Chapter)â€. Electron Beam Modification of Solids: Mechanisms, Common Features and Promising Applications. 2009. 35-37.
[8] Sychova, A. M., Svatovskaya, L. B., Mjakin, S. V., Vasiljeva, I. V. “Activation of aqueous phase at cement and concrete solidification (Book Chapter)â€. Electron Beam Modification of Solids: Mechanisms, Common Features and Promising Applications. 2009. 39-47.
[9] Maslennikova, L. L., Svatovskaya, L. B., Mjakin, S. V., Vasiljeva, I. V. Activation of reactions at solid-solid interfaces. Improvement of ceramics materials (Book Chapter). Electron Beam Modification of Solids: Mechanisms, Common Features and Promising Applications. 2009. 57-61.
[10] Svatovskaya, L. B., Yakimova, N. I., Trunskaya, O. Y, Rusanova, E. V, Krylova, N. B. New complex ecotechnology for oil demolished waste. Proceedings of the International Conference on Sustainable Waste Management and Recycling: Construction Demolition Waste, London (2004).
[11] Sychova, A. M., Solomahin, A., Kotovich, V., Svatovskaya, L. B., Kamenev, Y. "Improving of the monolithic foamconcrete quality for used in the high-rise constructions." E3S Web of Conferences. Vol. 33. EDP Sciences, 2018.
[12] Gusev, N., Svatovskaya, L. B., Kucherenko, A. "Effect of changing of the parameters of the cable network of monitoring systems of high-rise buildings on the basis of string converters on their operability." E3S Web of Conferences. Vol. 33. EDP Sciences, 2018.
[13] Sychova, A., Sychov, M., Rusanova, E. "A Method of Obtaining Geonoiseprotective Foam Concrete for Use on Railway Transport." Procedia engineering 189. 2017. 681-687.
[14] Sychova, A., Solomahin, A., Hitrov, A. "The Increase of the Durability and Geoprotective Properties of the Railway Subgrade." Procedia engineering 189. 2017. 688-694.
[15] Kavetsky, A., Yakubova, G., Sychov, M., Lin, Q., Walter, G., Chan, D., Yousaf, S., Socarras, H., Abrefah, J., Bower. K. "Tritium-charged capacitor." Nuclear science and engineering 159.3 (2008): 321-329.
[16] Kavetsky, A. G., Meleshkov, S. P., Sychov M. M. "Conversion of radioactive decay energy to electricity." Polymers, Phosphors, and Voltaics for Radioisotope Microbatteries. 2002. 9.
[17] Sychov, M. M. "Modification of zinc sulfide phosphors by irradiation with gamma-ray photons and electrons." Semiconductors 40.9. 2006. 1016-1020.
[18] Bakhmetyev, V. V., Mjakin, S. V., Korsakov, V. G., Abyzov, A. M. and Sychov, M. M. "A study of the surface and luminescence properties of ZnS: Mn 2+ nanosized phosphors." Glass Physics and Chemistry 37.5. 2011. 549.
[19] Sychov, M. M., Ogurtsov, K. A., Lebedev, V. T., Kulvelis, Yu. V., Török, Gy., Sokolov, A. E., Trunov, V. A., Bakhmetyev, V. V., Kotomin, A. A., Dushenok, S. A., Kozlov, A. S. “Effect of the Cu Content and ZnS Treatment on the Characteristics of Synthesized ZnS:(Cu, Cl) Electroluminescent Phosphorsâ€. Semiconductors, Vol. 46, No. 5, 2012. 696–700.
[20] Gravit, M. V., Gumenjuk, V. I., Sychov, M. M., Nedyshkin, O. "Estimation of the pores dimensions of intumescent coatings for increase the fire resistance of building structures." Procedia engineering 117. 2015. 119-125.
[21] Mjakin, S. V., Minakova, T. S., Bakhmetyev, V. V., Sychov, M. M. "Effect of the surfaces of Zn 3 (PO 4) 2: Mn 2+ phosphors on their luminescent properties." Russian Journal of Physical Chemistry A 90.1. 2016. 240-245.
[22] Myakin, S. V., Sychov, M. M., Vasina, E. S., Ivanova, A. G., Zagrebel’nyi, O. A., Tsvetkova, I. N., Shilova, O. A. “Relationship between the composition of functional groups on the surface of hybrid silicophosphate membranes and their proton conductivityâ€. Glass Physics and Chemistry, Vol. 40, No. 1, 2014. 97–98.
[23] Gu, Ji-Dong. "Mining, pollution and site remediation." 2018.
[24] Pal, R., Dubey, R. K., Dubey, S. K., Singh, A. K., & Nitant, A. K. “Assessment of heavy metal and organic pollution in Yamuna river at Etawah district of Uttar Pradeshâ€. IJCS, 6(1), 2018. 399-402.
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How to Cite
Svatovskaya, L., Sychovа, A., & Sychov, M. (2018). Lithosphere Protection with Hardening Phosphate-Containing Soil-Cement Technology. International Journal of Engineering & Technology, 7(4.7), 352-355. https://doi.org/10.14419/ijet.v7i4.7.23029
