Investigation of the Patterns of Changes in the Structural Strength of Moistened Loess Soils Under Dynamic (Seismic) Influences

Authors

  • Khakimov Gayrat Akramovich PhD, Associated Professor at Department “Civil Engineering Technology”, Tashkent University of Architecture and Civil Engineering, Tashkent, Uzbekistan.
  • Baymatov Shaxriddin Xushvaqtovich PhD, Associated Professor at Department “Civil Engineering Technology”, Tashkent University of Architecture and Civil Engineering, Tashkent, Uzbekistan.
  • Rakhimov Sherzod Abduvakhobjonovich PhD, Associated Professor at Department of “Hydrotechnics and Geotechnics Engineering Technology”, Tashkent Architecture and Civil Engineering University, Tashkent, Uzbekistan
  • Tulyaganov Zafar Sunnatovich PhD Student at Department “Civil Engineering Technology”, Tashkent University of Architecture and Civil Engineering, Tashkent, Uzbekistan.
  • Adilkhanova Zarofatkhan Student of Tashkent University of Architecture and Civil Engineering, Tashkent, Uzbekistan.

Keywords:

adhesion; connectivity; vibration compaction; angle of internal friction; bulk soil; loess soil; strength characteristics; vibration roller; structural strength; method; seismic subsidence.

Abstract

This scientific article presents the results of laboratory and field experimental studies on the study of patterns of changes in the structural strengths of moistened loess soils under dynamic influences, depending on various external and internal factors. Recommendations have been developed for determining the design pressure based on buildings, taking into account changes in the strength characteristics of loess soils under seismic influences.

References

Khakimov, G. A. "Changes in the Strength Characteristics of Glinistx Soils under the Influence of Dynamic Forces International Journal of Engineering and Advanced Technology, IJEAT." Exploring innovation (2020): 639-643.

Khakimov, Gayrat Akramovich. "The nature of the change in the connectivity of moistened loess soils during vibration." American Journal of Applied Science and Technology 2.06 (2022): 26-41.

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Khakimov, G. A., and M. A. Muminov. "Construction of buildings on weak moist clay soils in seismically active zones of uzbekistan." Web of Scientist: International Scientific Research Journal 3.12 (2022): 755-760

GMFN, Dos, Samiyeva Sh Kh, and Master MA Muminov. "Deformation of moistened loess foundations of buildings under static and dynamic loads." (2022).

Khajiev, N. M. "Change in the consistency characteristics of the wetted lussic bases (grunts) of buildings under the influence of seismic forces." Академические исследования в современной науке 1.13 (2022): 261-267.

Miralimov, Mirrakhim Mirmakhmutovich. "Principles of Regulation of Thermal Protection of Enclosing Structures and Their Impact on the Energy Efficiency Of Buildings." Design Engineering (2021): 496-510.

Хакимов, Ғайрат, et al. "Энергиятежамкор ва паст энергия эҳтиёжли замонавий бинолар қурилишининг жаҳон амалиёти ва ундан ўзбекистон шароитида фойдаланиш истиқболлари." Talqin va tadqiqotlar 1.19 (2023).

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Published

2024-02-05

How to Cite

Khakimov Gayrat Akramovich, Baymatov Shaxriddin Xushvaqtovich, Rakhimov Sherzod Abduvakhobjonovich, Tulyaganov Zafar Sunnatovich, & Adilkhanova Zarofatkhan. (2024). Investigation of the Patterns of Changes in the Structural Strength of Moistened Loess Soils Under Dynamic (Seismic) Influences. International Journal of Scientific Trends, 3(2), 1–9. Retrieved from https://scientifictrends.org/index.php/ijst/article/view/217

Issue

Vol. 3 No. 2 (2024): IJST

Section

Articles

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