Study of the Performance of a Building Model Equipped with a Seismic Isolation Device

Authors

  • Tulaganov Bahrom Abduqobilovich Doctor of Philosophy in Technical Sciences, Associate Professor Tashkent University of Architecture and Civil Engineering (Uzbekistan)
  • Baymatov Shakhriddin Khushvaktovich Doctor of Philosophy in Technical Sciences, Associate Professor Tashkent University of Architecture and Civil Engineering (Uzbekistan)
  • Samiyeva Shakhnoza Khushvaqtovna Doctor of Philosophy in Technical Sciences, Associate Professor Tashkent University of Architecture and Civil Engineering (Uzbekistan)

Keywords:

seismic protection, foundation, seismic isolation belt, fluoroplastic, earthquake

Abstract

Due to its location, the territory of the Republic is subject to seismic impact of 7-9 points. Along with the traditional methods of seismic protection, a rational solution is the introduction of new active methods, one of which is a sliding belt. The purpose of the work is to test the effectiveness of the use of a sliding belt, in the conditions of construction on the territory of the Republic of Uzbekistan, using the example of a building with a flexible structure.

References

1. Махмудов С.М., Самиева Ш.Х. КОНСТРУКТИВНЫЕ РЕШЕНИЯ СЕЙСМОИЗОЛИРУЮЩИХ ФУНДАМЕНТОВ ЗДАНИЙ //НАУЧНЫЕ РЕВОЛЮЦИИ КАК КЛЮЧЕВОЙ ФАКТОР РАЗВИТИЯ НАУКИ И ТЕХНИКИ. – 2021. – С. 36-38. https://os-russia.com/SBORNIKI/KON-393.pdf#page=36

2. Khushvaqtovna S. S. Prof. Makhmudov Said Makhmudovich //Study of the Operation of a Building Model with a Seismic Isolation Sliding Belt//INTERNATIONAL JOURNAL OF MULTIDISCIPLINARY RESEARCH AND ANALYSIS ISSN (print). – С. 2643-9840. https://scholar.google.com/scholar?cluster=11592764159241392371&hl=ru&as_sdt=2005

3. Samiyeva Sh.X., Khakimov G'.A. “Deformation of moistened loess foundations of buildings under static and dynamic loads”. European Journal of Research Development and Sustainability (EJRDS) Available Online at: https://www.scholarzest.com Vol. 3 No. 12, December 2022 ISSN: 2660-5570 (05.00.00 IF= 7.2, CiteScore 4, 2022)

4. Samiyeva Sh.X., Khakimov G'.A. Muminov A.A., Berdimurodov A.E., Muminov J.A., “Compaction of loess bases of buildings and structures, as well as Bulk soils around the foundation using vibratory rollers in seismic Areas”/ Galaxy International Interdisciplinary Research Journal, 11(4), 306–311. Retrieved from https://www.giirj.com/index.php/giirj/article/view/5184 (05.00.00 N: IF=8.057).

5. Samiyeva Sh.X., Khakimov G'.A. Muminov A.A., Berdimurodov A.E., Muminov J.A., Asemetov M. “Experience of compaction of the bases of large buildings and cores of earthen dams of waterworks in seismic areas with optimal humidity of loess soil” Web of Scientist: International Scientific Research Journal, 4(04), 365–372. https://doi.org/10.17605/OSF.IO/XH85C (05.00.00 N: IF=7.565).

6. Samiyeva Sh.X Khakimov Gayrat, and O. Goyibov. "Methods for Determining the Critical Acceleration of Loess Soil Oscillation." American Journal of Technology Advancement 1.5 (2024): 31-38. https://semantjournals.org/index.php/AJTA/article/view/196

7. Khushvaqtovna S. S., Makhmudovich M. S. SEISMIC REACTION OF FRAME BUILDINGS WITH A COMBINED SEISMIC PROTECTION SYSTEM //IMRAS. – 2024. – Т. 7. – №. 2. – С. 151-157. https://journal.imras.org/index.php/sps/article/view/1080

8. Khushvaqtovna S., Kambarov, M. M., Tulyaganov, Z. S., & Babaev, D. R. (2023). PERMISSIBLE LOAD ON THE BASE OF GROUND DAMS AT SEISMIC IMPACTS. Horizon: Journal of Humanity and Artificial Intelligence, 2(5), 251-255. https://scholar.google.com/scholar?cluster=11869843215874254005&hl=ru&as_sdt=2005

9. Samiyeva Sh.X., Boymatov Sh.X., Allambergenov A.J., Genjebaev T. “Analysis of space-planning solutions, thermal protection of the building for energy consumption and comfort for accommodation”. WEB OF SCIENTIST: INTERNATIONAL SCIENTIFIC RESEARCH JOURNAL/ ISSN 2776-0979, Volume 4, Issue 1, Jan.,2023/ 111-117 pages (05.00.00 N: IF=7.565). https://scholar.google.com/citations?view_op=view_citation&h l=ru&user=kzGnBtQAAAAJ&citation_for_view=kzGnBtQAAAAJ:qjMakFHDy7sC

10. Samiyeva Sh.X., Boymatov Sh.X., Allambergenov A.J., Asemetov M. “Formation of the microclimate of buildings in the climatic conditions of the Republic of Uzbekistan”. European Journal of Interdisciplinary Research and Development//Volume-11 Jan.2023// Website:www.ejird.journalspark.org// ISSN (E):2720-5746 (05.00.00 N: IF=7.985) https://scholar.google.com/citations?view_op=view_citation&hl=ru&user=kzGnBtQAAAAJ&citation_for_view=kzGnBtQAAAAJ:UeHWp8X0CEIC

11. Samiyeva Sh.X., Makhmudov S. M. “Quantitative assessment of the reliability of the system "foundation - seismic isolation foundation - building"”. YEOJU TECHNICAL INSTITUTE IN TASHKENT CENTRAL ASIAN JOURNAL OF STEM http://stem.ytit.uz/ http://sjifactor.com/passport.php?id=22533.

12. Maxmudov S. M., Samiyeva S. X., Ruziyev S. I. ZILZILA PAYTIDA BINONING ZAMIN BILAN O’ZARO TA’SIRINI VA SEYSMIK TA’SIRNING O’ZGARISHINI HISOBGA OLISH //GOLDEN BRAIN. – 2023. – Т. 1. – №. 1. – С. 151-153. https://researchedu.org/index.php/goldenbrain/article/view/4325

13. Makhmudov S. M., Samiyeva S. X., Roziev S. I. MODELING OF SEISMIC PROTECTION USING VISCOUS AND DRY FRICTION DAMPERS //GOLDEN BRAIN. – 2023. – Т. 1. – №. 1. – С. 70-73. https://researchedu.org/index.php/goldenbrain/article/view/4304

14. Махмудов, С., Самиева, Ш., Гойибов, О., & Турсунов, Д. (2023). Special sliding belt supports that protect buildings and structures from earthquakes. Сейсмическая безопасность зданий и сооружений, 1(1), 90-94. https://inlibrary.uz/index.php/seismic-safety-buildings/article/view/27570

Downloads

Published

2025-07-05

How to Cite

Abduqobilovich, T. B., Khushvaktovich, B. S., & Khushvaqtovna, S. S. (2025). Study of the Performance of a Building Model Equipped with a Seismic Isolation Device. American Journal of Technology Advancement, 2(7), 16–23. Retrieved from https://semantjournals.org/index.php/AJTA/article/view/2161

Similar Articles

You may also start an advanced similarity search for this article.