THE ANTI-CORROSION STRENGTH OF THE RENEWED SULFUR CONCRETE

Authors

Shahrisabz davlat pedagogika instituti

https://orcid.org/0009-0002-3013-7457

Keywords:

melamine, sulfur concrete, modification, copolymer, corrosion, acidic, alkaline, sand, plasticization, polymer, aggressive environment, spectrum, thermogravimetry, scanner, dispersion.

Abstract

In this article, it was found expedient to obtain sulfur concrete based on organic nitrogen-containing compounds. Melamine, hydrazine, 2,4-dinitrophenylhydrazine, and bitumen were used as modifiers. The corrosion resistance of the obtained samples of sulfur concrete was studied in aggressive environments, including: 10% solutions of acids H₂SO₄, HCl, HNO₃, H₃PO₄, 3% solutions of Na₂SO₄, NaCl, NaF, 10% NaOH, pH=4-10 and machine oil, dichloroethane and diesel fuels. The results obtained in the course of research show an increase in corrosion resistance and an improvement in the mechanical properties of sulfur concrete.

Author Biography

, Shahrisabz davlat pedagogika instituti

Shahrasabz davlat pedagogika instituti, texnika fanlari v.b.dotsenti.

References

Belenko L.I. (1998). Polucheniy i svoystva organicheskix soydineniy sere [Preparation and properties of organic sulfur compounds] Moscow, Сhemistry. 560 p.

Nadelkin V.I., Zachernik B.A., Andrianova O.B. (2005). Organicheskiy polimere na osnove elementnoy sere I ye prosteyshix soedineniy. [Organic polymers based on elemental sulfur and its simplest сompounds]. Ross. Chem. Juornal. 49. №6. Р.3-10.

Nedelkin V.I, Zachernyuk B.A., Korneyeva L.A., Solovyeva YE.N., Kudryashova I.N., Zachernyuk A.B. Elementnaya sera v polimeroobrazovanii. [Elemental sulfur in polymer formation ] Structure and dynamics of molecular systems: proc. report XIX All-Russian. conf. Kazan 2012. C.72

Nedelkin V.I., Zachernyuk B.A., Korneyeva L.A., Solovyeva YE.N. (2016).Elementnaya sera kak monomer dlya sinteza poliarilensulfidov. [Elemental sulfur as a monomer for the synthesis of polyarylenesulfides]. XX Mendeleev Congress on General and Applied Chemistry: Proceedings. report in five volumes Ekaterinburg,.V.2b. P.343.

Nedelkin V.I., Zachernyuk B.A., Korneyeva L.A., Solovyeva YE.N. (2018). Elektrofilnoye sulfidirovaniye v sinteze oligoarilensulfidov.[Electrophilic sulfidation in the synthesis of oligoarylene sulfides] Butlerov Communications. V.53. No. 1. pp.148-152.

Ginzburg B.M., Tochilnikov D.G., Lyashkov A.I., Lavrentev V.K., Leksovskii A.M., Pozdnyakov A.O., Pozdnyakov O.F., Sukha-nova T.E., and Shepelevskii A.A. (2010). Polypara-phenylene sulfide as material for water-lubricated sliding bearings // Friction and Wear. Vol.31. No.4 Pp.394-402.

Berlin A.A. (2009). Polimerniye kompozitsionniye materiali: struktura, svoystva, texnologiya. [Polymer composite materials: structure, properties, technology] textbook; SPb.: Profession. 560 p

Ginzburg B.M., Tochilnikov D.G., Baxareva V.YE., Anisimov A.V., Kireyenko O.F. (2006). Polimerniye materiali dlya podshipnikov skoljeniya, smazivayemix vodoy. [Polymeric materials for plain bearings lubricated by water]. Review // Journal of Applied Chemistry. V.79. No. 5. P.705-716

Yamamoto Y., and Takashima T. (2002) Friction and Wear of Water Lubricated PEEK and PPS Sliding Contacts // Wear. Vol.253. No.7-8. P.820—826.

Zachernyuk B.A., Savin E.D., Nedel'Kin V.I. (2002) Recent advances in the chemistry of sulfur-containing poly(arylenes) // Polymer Science. Series C. Vol.44. No.2.Pp.168–184.

Korneyeva L.A., Nedelkin V.I., Zachernyuk B.A. (2017) Ekologicheskiye aspekti polucheniya poliarilensulfidov na osnove seri [Ecological aspects of obtaining polyarylene sulfides based on sulfur] Scientific aspects modern research: Sat. stat. intl. n.-pract. conf. Novosibirsk, C. 23-26.

Kolobova E.A., Lozhkina D.A. (2015) Waste Processing Oil and Capacity Radiationresistant Composites on their Basis. [Modern prob. automation and control In energy and engineering: Sat. scientific tr. intl. n.-pract]. conf. Penza. P.335-345

Axmedova A.R., Serebrennikova O.V., Shiganova (2017). Geoximicheskaya xarakteristika neftey sentralnoy Sibirskoy platform. [Geochemical characteristics of the oils of the central Siberian platform] Neft Gas exposition. No. 7 (60). pp.68-73

Agabekov V.YE., Kosyakov V.K. (2011) Neft i gaz: texnologii i produkti pererabotki. [Oil and gas: technologies and products of processing]. Minsk: Belarus. Science. 459 p.

Shvetsova A.V., Sediki D.B., Shinkar YE.V., Berberova N.T. (2017) Razrabotka protsessa elektromediatornogo sinteza organicheskix polisulfidov na osnove sikloalkanov, serovodoroda i elementnoy seri. [Development of the process of electromediator synthesis of organic polysulfides based on cycloalkanes, hydrogen sulfide and elemental sulfur] Latest technologies for the development of hydrocarbon deposits and ensuring the safety of the ecosystems of the Caspian shelf: Proceedings of the VIII Intern. scientific and practical. conf. Astrakhan,. S. 192-196.

Nedelkin V.I., Kudryashova I.N., Zachernyuk B.A., Solovyeva YE.N., Chernova N.S. (2012). Noviye podxodi k utilizasii seri pri gazoochistke. [New approaches to the utilization of sulfur in gas cleaning] Modern problems of development of the textile and light industry: Sat. mat. intl. n.-tech. conf. M.,. S.30-31 p.

Amanova N.D., Turayev Kh.Kh., Beknazarov Kh.S. Properties of new modified polymer sulfur concrete // Actual problems of modern science and innovation in the Central Asian region: collection of articles of the international conference. -Jizzahk, -2020. -p.71.

Amonova N.D., Turayev X.X., Beknazarov X.S., Eshkurbonov F.B. (2020) Issledovaniye kinetiki termookislitelnoy destruksii isxodnogo i modifisirovannix obrazsov seri metodami DTA i TGA [Study of the kinetics of thermal-oxidative destruction of the original and modified samples of a series by DTA and TGA] Science and World. International Scientific Journal, No. 6 (82),, Volume 1.

Amanova N.D., To‘rayev X.X., Beknazarov X.S. (2020) Sintez i issledovaniye novogo polimernogo serobetona. [Synthesis and study of new polymeric sulfur concrete] Universum: technical sciences: scientific journal. Part 3.M., Ed. "MSHO".-No. 6 (75).-C.5-8.

Mohamed A. M. O, Gamal M. E. Sulfur concrete for the construction industry; a sustainable development approach. J. Ross Publishing, Inc., 5765 N. Andrews Way, Fort Lauderdale, FL 33309.

Casanova I. (1997) Feasibility and applications of sulfur concrete for lunar base development: a preliminary study, Lunar Planet. Sci. XXVIII 209.

Omar H.A. Production of Lunar Concrete using Molten Sulfur, Final Research Report for JoVe NASA Grant NAG8 – 278.

Grugel R.N. (2008) Sulfur ‘Concrete’ for Lunar Applications – Environmental Considerations, NASA/TM –215250.

Grugel R.N., Toutanji H. (2008) Sulfur ‘‘concrete” for lunar applications — sublimation concerns, Adv. Space Res. 41 103–112.

Cha S. W. K., Kim S., Park H. S. (2011) Nov Manufacture of modified sulfur polymer binder and characteristics of sulfur concrete. Korea Concrete Institute.; 23-6: 40-42.

Yoon J. H. Ryu Y. S., Lee J. K. Sep (2003) Sulfur concrete. Korea Concrete Institute.; 15-5: 46-51.

Vroom A. H. Jan (1998) Sulfur concrete goes global. Concrete International.; 68-71.

Bencowitz I. Effect of sulfur upon some of the properties of asphalts / I. Bencowitz, E.S. Boe // Proceedings of the American Society of Testing Materials – 1938 – vol. 38 – pp. 539-550

Książek, M. 2014 The influence of penetrating special polymer sulfur binder –Polymerized sulfur applied as the industrial waste material on concrete watertightness. Composites Part B: Engineering, vol. 62, Issue null, pp. 137-142

Książek, M. (2014) The experimental investigations of propriety and applies in the building special coating – Sulfur polymer composite as the industrial waste material // Composites Part B: Engineering, vol. 58, Issue null – pp. 378-385.

THE ANTI-CORROSION STRENGTH OF THE RENEWED SULFUR CONCRETE

Authors

Keywords:

Abstract

Author Biography

, Shahrisabz davlat pedagogika instituti

References

Downloads

Published

Issue

Section

License

Most read articles by the same author(s)