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Home / Journals / Technique and technology of silicates / COMPLEX MINERAL BINDERS FOR SOIL STRENGTHENING BASED ON SECOND-ARY RESOURCES OF THE CHEMICAL AND METALLURGICAL INDUSTRY
COMPLEX MINERAL BINDERS FOR SOIL STRENGTHENING BASED ON SECOND-ARY RESOURCES OF THE CHEMICAL AND METALLURGICAL INDUSTRY
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COMPLEX MINERAL BINDERS FOR SOIL STRENGTHENING BASED ON SECOND-ARY RESOURCES OF THE CHEMICAL AND METALLURGICAL INDUSTRY
Parfenova Anastasia 1
Sinitsin Dmitry 2
Glazachev Anton 3
Sinitsina Ekaterina 4
Nedoseko Igor 5
Authors:
1.  Ufimskiy gosudarstvennyy neftyanoy tehnicheskiy universitet

2.  Ufimskiy gosudarstvennyy neftyanoy tehnicheskiy universitet

3.  Ufimskiy gosudarstvennyy neftyanoy tehnicheskiy universitet

4.  Ufimskiy gosudarstvennyy neftyanoy tehnicheskiy universitet

5.  Ufimskiy gosudarstvennyy neftyanoy tehnicheskiy universitet

Type:
Article
DOI:
https://doi.org/10.62980/2076-0655-2025-184-194
EDN:
https://elibrary.ru/taepas
Pages:
from 184 to 194
Status:
Subject area:
2.1.5
666.96...12
61.35
Language:
Russian, English
Keywords:
complex mineral binder, soil reinforcement, secondary resources, metallurgical slag, mineral product of the soda industry
Funding:
The work was carried out within the framework of the participation of the Federal State Budgetary Educational Institution of Higher Education “USPTU” in the development program “Priority-2030”.
Abstract and keywords
Abstract (English):
Transportation construction is an important but material-intensive branch of the national economy. For the construc-tion of road base layers, crushed stone from dense rocks and sand and gravel mixtures are mainly used, which are scarce materials. An alternative to natural stone materials are soils reinforced with mineral binders. Portland cement is used as a mineral binder to reinforce soils in transportation construction. It is also allowed to use complex mineral binders with secondary resources for this purpose. In the Urals-Volga region, such secondary resources include wastes of the metallurgi-cal industry - blast furnace and converter slag from Chelyabinsk and Magnitogorsk metallurgical plants. Waste from the chemical industry is also used - mineral product from the soda production of JSC Bashkir Soda Company. On the basis of the above mentioned secondary resources a complex mineral binder was developed, produced by joint grinding of mineral product of soda production after preliminary firing at 950ºC and granulated blast furnace slag of Chelyabinsk Metallurgi-cal Plant. The developed complex mineral binder is characterized by compressive strength of 22-24 MPa at the age of 28 days of normal hardening, i.e. it corresponds to 22,5 N grade according to GOST R 70196-2022 and can be used for strengthening of cohesive and noncohesive soils in the construction of road bases.

Keywords:
complex mineral binder, soil reinforcement, secondary resources, metallurgical slag, mineral product of the soda industry
References

1. Bezrodnyh A.A. Terminologicheskie aspekty ukreple-niya gruntov / A.A. Bezrodnyh, V.V. Nelyubova, V.V. Stro-kova [i dr.] // Inzhenernye zadachi: problemy i puti reshe-niya: Sbornik materialov Vserossiyskoy (nacional'noy) nauchno-prakticheskoy konferencii Vysshey inzhenernoy shkoly SAFU, 20 noyabrya 2019 goda / Sostaviteli M.V. Morozova, S.E. Aksenov. – Arhangel'sk: Severnyy, 2019. – S. 66-68.

2. Markov, A.Yu. Svoystva toplivnyh zol razlichnyh tipov kak komponentov bitumnoy emul'sii / A.Yu. Markov, V.V. Strokova, A.A. Bezrodnyh, M.A. Stepanenko // Stroitel'-stvo i rekonstrukciya. – 2020. – № 2 (88). – S. 67-76. – DOIhttps://doi.org/10.33979/2073-7416-2020-88-2-67-76.

3. Lyangasova S. Grunty kak osnova buduschego stroitel'stva / S. Lyangasova // Avtomobil'nye dorogi. – 2022. – № 10(1091). – S. 59-61.

4. The use of synthetic materials in the highway engineering in the Urals / A. Bartolomey, A. Bogomolov, V. Kleveko, A. Ponomarev, V. Ofrikhter // Proceedings of the twelfth Euro-pean conference on soil mechanics and geotechnical engineer-ing. – Amsterdam, Netherlands, 1999. – Vol. 2. – P. 1197–1202.

5. Kozlova, I., Samchenko, S., Zemskova O. Physico-Chemical Substantiation of Obtaining an Effective Cement Composite with Ultrafine GGBS Admixture // Buildings. – 2023. - Vol. 13. - №4,. – R. 925. https://doi.org/10.3390/buildings13040925.

6. Vzaimodeystvie fosfornogo shlaka, zhidkogo stekla i grunta v zemlyanom polotne lesovoznyh avtomobil'nyh dorog / I. A. Vikulin, D. G. Kozlov, Yu. A. Borovlev [i dr.] // Sistemy. Metody. Tehnologii. – 2024. – № 3(63). – S. 84-94.

7. Bezruk V.M. Tehnologiya i mehanizaciya ukrepleniya gruntov v dorozhnom stroitel'stve / V.M. Bezruk, E.F. Le-vickiy, L.N. Yastrebova, M.A. Liberman, V.S. Isaev, L.I. Gluhman. - M.: Transport, 1976. – 232 s.

8. Korochkin A. V. Proektirovanie i stroitel'stvo do-rozhnyh odezhd s primeneniem cementogruntov / A.V. Ko-rochkin // Transport: nauka, tehnika, upravlenie. Nauchnyy informacionnyy sbornik. – 2021. – № 9. – S. 69-72. – DOIhttps://doi.org/10.36535/0236-1914-2021-09-13.

9. Chudinov S.A. Ukreplenie gruntov portlandcementom s dobavleniem modificirovannogo lignosul'fonata / S. A. Chudinov, N. V. Ladeyschikov // Modernizaciya i nauchnye issledovaniya v transportnom komplekse. – 2022. – T. 1. – S. 338-341.

10. Golubeva E.A. Sokraschenie ekspluatacionnyh zatrat putem primeneniya innovacionnyh materialov oteche-stvennogo proizvodstva / E. A. Golubeva, I. M. Karamy-shev, N. E. Kostyukov // Mir dorog. – 2018. – № 111. – S. 16-19.

11. Grishin A.N., Panchenko A.I., Harchenko I.Ya., Bazhenov M.I. Tonkodispersnoe kompozicionnoe vyazhuschee dlya za-krepleniya gruntov in'ekcionnym sposobom // Vestnik MGSU. – 2017 - № 12(11). – S.1289-1298.

12. Larionova N.A. Vliyanie poverhnostnyh plenok na effektivnost' ukrepleniya peschanyh gruntov neorganiche-skimi vyazhuschimi / N. A. Larionova // Inzhenernaya geolo-giya. – 2022. – T. 17, № 1. – S. 20-32. – DOIhttps://doi.org/10.25296/1993-5056-2022-17-1-20-32.

13. Slobodchikova N.A. Nauchnye osnovy podbora sostava gruntov, ukreplennyh izvest'yu / N. A. Slobodchikova // Vestnik nauki i obrazovaniya Severo-Zapada Rossii. – 2017. – T. 3, № 4. – S. 62-68.

14. Shelomencev S.V. Uluchshenie svoystv gruntov s pomo-sch'yu modifikatorov / S. V. Shelomencev, V. A. Reprincev // Izvestiya Tul'skogo gosudarstvennogo universiteta. Nauki o Zemle. – 2019. – № 1. – S. 315-326.

15. Krivoborodov Yu.R., Kozlova I.V., Zemskova O.V., Bo-risenkov N.S. Razrabotka cementnyh kompoziciy s tonko-dispersnym perlitom dlya in'ekcionnogo zakrepleniya gruntov // Tehnika i tehnologiya silikatov. – 2023. – T. 30, №3. – S. 272 – 280.

16. Bavbel' E.I. Razrabotka sostava malocementnogo kom-pozicionnogo vyazhuschego dlya ukrepleniya mestnyh dorozh-nyh gruntov / E. I. Bavbel', A. I. Naumenko, M. V. Zhilin-skiy // Sciences of Europe. – 2018. – № 31-1(31). – S. 43-46.

17. Ispol'zovanie othodov proizvodstva kal'cinirovan-noy sody dlya polucheniya izvest'soderzhaschih vyazhuschih i stroitel'nyh materialov na ih osnove / A. A. Oratovskaya, D. A. Sinicin, L. Sh. Galeeva [i dr.] // Stroitel'nye mate-rialy. – 2012. – № 2. – S. 52-53.

18. Analiz sostava, svoystv i perspektivy primeneniya mineral'nogo produkta sodovogo proizvodstva AO «Bash-kirskaya sodovaya kompaniya» dlya izgotovleniya energoef-fektivnyh vyazhuschih / S.L. Mamulat, V.V. Babkov, E.M. Da-vydov [i dr.] // Stroitel'nye materialy. – 2022. – № 3. – S. 61-73. – DOIhttps://doi.org/10.31659/0585-430X-2022-800-3-61-73.

19. Dzhandullaeva, M. S. Fiziko-mehanicheskie svoystva silikatnyh materialov na osnove tverdyh othodov sodo-vogo proizvodstva / M. S. Dzhandullaeva, T. A. Atakuziev // Himicheskaya promyshlennost'. – 2017. – T. 94, № 1. – S. 31-33. – EDN YMIGDB.

20. Tverdye othody sodovogo proizvodstva - vazhnyy re-zerv rasshireniya syr'evoy bazy polucheniya izvesti i niz-koenergoemkih besklinkernyh vyazhuschih na ee osnove / A.N. Ryazanov, D.A. Sinicin, G.Yu. Shagigalin [i dr.] // Stroitel'nye materialy. – 2020. – № 4-5. – S. 14-17. – DOIhttps://doi.org/10.31659/0585-430X-2020-780-4-5-14-17.

21. Kompozicionnye materialy dlya dorozhnogo stroi-tel'stva na osnove othodov himicheskoy i metallurgiche-skoy promyshlennosti / V. V. Babkov, I. V. Nedoseko, A. O. Glazachev [i dr.] // Stroitel'nye materialy. – 2023. – № 1-2. – S. 88-94. – DOIhttps://doi.org/10.31659/0585-430X-2023-810-1-2-88-94.

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