Русский
English 35-44 стр.
В исследовании рассматриваются теоретические аспекты структурообразования укрепленных связных грунтов. Проведен анализ наиболее перспективных методов химического укрепления грунтов отходами горных работ. В работе приведены сведения по подбору состава комплексного вяжущего на основе известково-глинистого грунта. Актуальность исследования обусловлена тем, что строительной индустрии необходимы территории, пригодные для застройки. В данной работе описаны методы минералого-химического анализа, рентгеноструктурного анализа, электронно-микроскопического исследования и флюоресцентного анализа, а также показана новая технология укрепления глинистых грунтов известью, упрощенная по сравнению с методом механоактивации. В ходе исследований удалось определить оптимальный состав грунтобетона. Данная работа также подтверждает возможность использования этих соединений в 3D-технологии в строительстве.
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2. Lee S.H., Kim EY., Park H., Yun J., Kim J.G. In situ stabilization of arsenic and metal-contaminated agricultural soil using industrial by-products // Geoderma. 2011. № 161 (1-2). P. 1 – 7.
3. Jafari M., Esna-ashari M. Effect of waste tire cord reinforcement on unconfined compressive strength of lime stabilized clayey soil under freeze-thaw condition // Cold Regions Science and Technology. 2012. № 82. P. 21 – 29.
4. Fauzi A., NazmiW.M., Abdul-RahmanW., Jauhari Z. Utilization waste material as stabilizer on Kuantan clayey soil stabilization // Procedia Engineering. 2013. № 53. P. 42 – 47.
5. Sreekrishnavilasam A., Rahardja S., Kmets, R., Santagata M. Soil treatment using fresh and landfilled cement kiln dust // Construction and Building Materials. 2007. № 21. P. 318 – 327.
6. Doulati Ardejani F., Jodieri Shokri B., Bagheri M., Soleimani E. Investigation of pyrite oxidation and acid mine drainage characterization associated with Razi active coal mine and coal washing waste dumps in the Azad shahr-Ramian region, northeast Iran // Environmental Earth Sciences. 2010. № 61 (8). P. 1547 – 1560.
7. Seco A., Ramirez F., Miqueleiz L., Garcia B. Stabilization of expansive soils for usein construction // Applied Clay Science. 2011. № 51 (3). P. 348 – 352.
8. Obuzor G.N., Kinuthia J.M., Robinson R.B. Soil stabilization with lime activated GGBS – a mitigation to flooding effects on road structural layers/embankments constructed on floodplains // Engineering Geology. 2012. № 151 (29). P. 112 – 119.
9. Eires R., Camões A., Jalali S. Enhancing water resistance of earthen buildings with quicklime and oil // Journal of Cleaner Production. 2017. № 142 (4). P. 3281 – 3292.
10. Oza J.B., Gundaliya P.J. Study of black cotton soil characteristics with cement waste dust and lime // Procedia Engineering. 2013. № 51. P. 110 – 118.
11. Islam S. Aggregate concrete factor (λ) for burnt clay brick aggregate concrete // Magazine of Civil Engineering. 2019. № 03. P. 46 – 58.
12. Khemissa M., Mahamedi A. Cement and lime mixture stabilization of an expansive overconsolidated clay // Applied Clay Science. 2014. № 95. P. 104 – 110.
13. Chang I., Prasidhi A.K., Im J., Cho G.C. Soil strengthening using thermo-gelation biopolymers // Construction and Building Materials. 2015. № 77. P. 430 – 438.
14. Svatovskaya L., Kabanov A., Sychov M. Soling, Aerating and Phosphating for Soil Strengthening and Detoxication // Procedia Engineering. 2017. № 189. P. 398 – 403.
15. Zhou J., Tao Y.L., Xu C.J., Gong X.N., Hu P.C. Electro-osmotic strengthening of silts based on selected electrode materials // Soils and Foundations. 2015. № 55 (5). P. 1171 – 1180.
16. Chang I., Im J., Prasidhi A.K., Cho G.C. Effects of Xanthan gum biopolymer on soil strengthening // Construction and Building Materials. 2015. № 74. P. 65 – 72.
17. Slavcheva G., Artamonova O. Rheological behavior of 3D printable cement paste: criterial evaluation // Magazine of Civil Engineering. 2019. № 08. P. 97 – 108.
18. Dent D.L., Pons L.J. A world perspective on acid sulphate soils // Geoderma. 1995. № 67 (3-4). P. 263 – 276.
19. Jayalath N., Mosley L.M., Fitzpatrick R.W., Marschner P. Addition of organic matter influences pH changes in reduced and oxidised acid sulfate soils // Geoderma. 2016. № 262. P. 125 – 132.
20. Fanning D.S., Rabenhorst M.C., Fitzpatrick R.W. Historical developments in the understanding of acid sulfate soils // Geoderma. 2017. № 308. P. 191 – 206.
21. Li J., Hitch M. Ultra-fine grinding and mechanical activation of mine waste rock using a planetary mill for mineral carbonation // International Journal of Mineral Processing. 2017. № 158. P. 18 – 26.
22. Sobolev K., Lin Z., Cao Y., Sun H., Flores-Vivian I., Rushing T., Cummins T., Weiss W.J. The influence of mechanical activation by vibro-milling on the early-age hydration and strength development of cement // Cement and Concrete Composites. 2016. № 71. P. 53 – 62.
Закревская Л.В., Гавриленко А.А., Капуш И.Р., Любин П.А. Создание грунтобетона и укрепление оснований с применением отходов горнодобычи // Строительные материалы и изделия. 2022. Том 5. № 3. С. 35 – 44. https://doi.org/10.58224/2618-7183-2022-5-3-35-44