Opportunities for Getting Rust Modifications on the Base of Local Resources for Corrosive Surface
American Journal of Materials Synthesis and Processing
Volume 3, Issue 2, June 2018, Pages: 30-33
Received: Jun. 19, 2018;
Accepted: Jul. 6, 2018;
Published: Aug. 8, 2018
Views 831 Downloads 36
Jumaniyazov Maqsud Jabbiyevich, Department of Chemical Technology, Chemical-Technological Faculty, Urgench State University, Urgench City, Uzbekistan
Ermetov Amirbek Ismailovich, Department of Chemical Technology, Chemical-Technological Faculty, Urgench State University, Urgench City, Uzbekistan
Kuranbayev Sherzod Raimberganovich, Department of Chemical Technology, Chemical-Technological Faculty, Urgench State University, Urgench City, Uzbekistan
In this article, 22% of the phosphoric acid content is derived from surfactants, corrosion inhibitors and industrial waste densities that have an artificial resource and study advanced rust modifiers. Adding exterior-active substances, corrosion inhibitors and technogen resources to 22% phosphate acid. In order to create optimal composition of multi-functional rust modifications and analyzing available products with chemical and physical methods. Modern physical-chemical methods, X-ray phased, IR- spectroscopic research are used. Melting diagram of 22% Н3РО4–(СН2)6N4–С5Н6О2 triple polythermal system has been investigated for the first time and modifier with new composition has been synthesized. As a result of total scientific research, the new technology of getting chemical refining modifiers from competitive multi-functional rust has been founded. Taking everything into account, results, taken on the base of studying melting level in [22% Н3РО4+78% Н2О] – (СН2)6N4–С5Н6О2 system, lead to the creation of new technology of getting new rust modifiers on the base of extractive phosphate acid, furfural alcohol and hexamethylenetetramine.
Jumaniyazov Maqsud Jabbiyevich,
Ermetov Amirbek Ismailovich,
Kuranbayev Sherzod Raimberganovich,
Opportunities for Getting Rust Modifications on the Base of Local Resources for Corrosive Surface, American Journal of Materials Synthesis and Processing.
Vol. 3, No. 2,
2018, pp. 30-33.
Copyright © 2018 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Jumaniyazov M. J, Kurambayev SH, D. M. Jumaniyazova, A. Rajabov, Ruzmetov S. Searching metal inhibitors against-metal rusting on the base of hydrolysis lignin. // U. AS «Bulletin of Khorezm Ma’mun Academy». Khiva-2007, №1-43-46 B.
Jumaniyazov M. J., Kurambaev Sh., D. M. Jumaniyazova. Synthesis of new modified forms of hydrolytic lignin and their application. "High technologies and prospects of integration of education, science and production". Proceedings of the International Scientific and Technical Conference, Tashkent-2006, 205-207 S.
Jumaniyazov M. J., A. Rajabov., D. M. Jumaniyazova., Kurambaev Sh. The problem of lignin, the sources of its formation and methods of utilization. / J. Urdu "Ilm sarcashmalari" 2006 №2, - 12-15 B.
Jumaniyazov M. J., Yuldashev N. X., Dyusebekov B. D., Xodjaev O. F. The basics of the technology of obtaining antipyretic against Gossipol smoke. // J. Composite materialy. -2002, -№ 4. S. 55-56
Dyusebekov B. D., Alibekov R. S., Jumaniyazov M. J., Yuldashev N. X. Gossypol resin is the most valuable raw material for obtaining products of national economic importance. Resb. scientific-practical. Conf. "Uzb. kimyo talimi, fani va texnosi "-Tashkent., 2002. P. 198-200
Panova O. A., Ivleva I. A., Besedin P. V. Investigation of the structural-rheological properties of the composition in the presence of an alkali-reagent// Cement and its application. 2012. №5. Pp. 94-98.
P. V., Panova O. A., Ivleva I. A. Techniques, patterns and mechanisms of energy conservation on the base of using of plasticizing agents in the technology of making of the cement clinker// Word Applied Sciences Journal. 25 (1): 83-91. 2013
Babushkin V. I., Matveyev G. M., Mchedlov-Petrosyan O. P. Thermodynamics of silicates 4 th ed., Pererab. and additional. Moscow: Stroiizdat, 1986. 408 p.
Eitel V. Physical chemistry of silicates. Moscow: Publishing House of Foreign Literature, 1962. 1056 p.
Prigogine I., Defay R. Chemical Thermodynamics. Novosibirsk: Science, Siberian Division, 1966. 512 p.
Guzman I. Y. Chemical technology of ceramics. Textbook. manual for universities. M. OOO RIF "Stroimaterialy", 2003. 496 p.
Besedin P. V., Ivleva I. A., Mospan V. I. Heat-efficient wall material // Glass and ceramics. 2005. № 6. P. 24-25.
Dulkina, T. I. Gzhel. Ceramics of 18-19 centuries. Ceramics of the 20th century / T. I. Dulkina, N. S. Grigor'eva, TL. Astrakhantsev. - Moscow: Planet; Edition 2-e, corrected. and add., 2016. - 184 c.
Sidorova, N. A. Antique painted ceramics / N. A. Sidorova, O. V. Tugusheva, V. S. Zabelina. - Moscow: Art, 2016. - 228 c.
Arzumanova, OI Keramika Abramtseva in the meeting of the Moscow State University of Engineering Ecology / O. I. Arzumanova, V. A. Lyubartovich, M. V. Nashchokina. - Moscow: Giraffe, 2015. - 224 c.
Salakhov AM, Morozov VP, Gumarov AI, Ariskina K. A., Valimukhametova AR, Lis ON, Pasynkov M. V. Experience of surface treatment of ceramic materials for construction purposes // Building materials. 2017. № 4. P. 42-46.
Saenko EG, Korepanova VF, Grinfeld GI. Opportunities of clinker clinker brick of LSR brand in import substitution // Building materials. 2016. № 4. P. 60-63.