TEMIR YO‘LLARDAGI TRANSPORT INSHOOTLARINI LOYIHALASHNING ASOSIY QOIDALARI VA TAMOYILLARI

TEMIR YO‘LLARDAGI TRANSPORT INSHOOTLARINI LOYIHALASHNING ASOSIY QOIDALARI VA TAMOYILLARI

Authors

  • Shermuxamedov Ulugbek Zabixullayevich (Toshkent Davlat Transport Universiteti)
  • Karimova Anora Baxtiyerovna
  • Barotov Ashurali Ixtiyor o‘g‘li

Keywords:

ko‘prik, temir yo‘llar, temirbeton, loyihalash asoslari, qurilish, temirbeton konstruktsiyalarning me’yor va qoidalari, armaturasi oldindan zo‘riqtirilgan, ferma, arka, romli tizim.

Abstract

Ushbu maqolada transport inshootlarini loyihalashning asosiy qoidalari va tamoyillari haqida ma’lumotlar berilgan va tahlil natijalari keltirilgan.

References

Salixanov S.S. Transport inshootlarini loyihalash va qurish // Darslik, TTYMI. 2018. 1-qism. – 408 b.

Shermukhamedov, U., Karimova, A., Abdullaev, A., & Hikmatova, I. (2023). Calculation of monolithic bridges taking into account seismic conditions of Republic of Uzbekistan. In E3S Web of Conferences (Vol. 365, p. 02005). EDP Sciences.

ShNQ 2.05.03–12. Ko‘priklar va quvurlar. Toshkent. 2012 y.

Salixanov S.S. Ko‘priklarni hisoblash va loyihalash. Transport inshootlarini loyihalash va qurish // O‘quv qollanma, TTYMI. 2020. 1-qism. – 408 b.

Shermuxamedov, U. Z., & Zokirov, F. Z. (2019). Application of modern, effective materials in rail road reinforced bridge elements. Journal of tashkent institute of railway engineers, 15(3), 8-13.

Салиханов, С. С., & Шермухамедов, У. З. (2020). Мостовое полотно железобетонных мостов с использованием нового типа гидроизоляции. Путевой навигатор, (42), 30-32.

Raupov, C., Shermuxamedov, U., & Karimova, A. (2021). Assessment of strength and deformation of lightweight concrete and its components under triaxial compression, taking into account the macrostructure of the material. In E3S Web of Conferences (Vol. 264, p. 02015). EDP Sciences.

Raupov, C., Karimova, A., Zokirov, F., & Khakimova, Y. (2021). Experimental and theoretical assessment of the long-term strength of lightweight concrete and its components under compression and tension, taking into account the macrostructure of the material. In E3S Web of Conferences (Vol. 264, p. 02024). EDP Sciences.

Karimova, A., Shermuxamedov, U., & Abdullayev, A. (2022). Shahar yo‘l transporti infrastrukturasini rivojlantirishda zamonaviy monolit ko‘priklar va yo‘l o‘tkazgichlarni loyihalash va qurishning o‘ziga xos xususiyatlari.

Shermukhamedov U.Z., Tayirov Sh.Sh. Some features of damage to un-cut reinforced concrete bridges under severe earthquakes // Journal Science and Innovation Volume 2 Issue 1. 2023. – p.54-62.

Karimova, A. (2023). Features of the impact of seismic vibrations in continuous reinforced concrete bridges and overheads.

Karimova A.B., Barotov A. (2023). Impact of Earthquakes on Artificial Structures. Miasto Przyszłości, 33, 48-52.

KA Baxtiyеrovna, BA Ixtiyor o‘g‘li. (2023). Qoziqli poydevor turlari va uning o‘ziga хos хususiyatlari. Innovative Society: Problems, Analysis and Development Prospects (Spain), 165-168.

AB Karimova, X Sheraliyeva. (2022). Qumli gruntning fizikaviy ko‘rsatkichlarini tavsiflash orqali hisobiy qarshiligini aniqlash. Academic research in educational sciences, 472-482.

Shermukhamedov, U., Karimova, A., Abdullaev, A., & Hikmatova, I. (2023). Calculation of monolithic bridges taking into account seismic conditions of Republic of Uzbekistan. In E3S Web of Conferences (Vol. 365, p. 02005). EDP Sciences.

Shermukhamedov, U., Karimova, A. (2022). Modern approaches to the design and construction of bridges and overpasses in the republic of uzbekistan. Science and innovation, 1(A8), 647-656.

Shermukhamedov, U., Karimova, A., Khakimova, Y., & Abdusattorov, A. (2022). Modern techniques for the construction of monolithic bridges. Science and innovation, 1(A8), 790-799.

Yaxshiev, E. T., Zokirov, F. Z., & Karimova, A. B. (2019). Research of system conditions for formation of failure on mathematical models by the results of the research of reinforced concrete bridges. Journal of Tashkent Institute of Railway Engineers, 15(3), 36-41.

Raupov, C., Yaxshiev, E., & Karimova, A. (2018). The principles of calculation of preliminary-stressed reinforced concrete elements of a tripping structure under dispersed arming. Journal of Tashkent Institute of Railway Engineers.

Shermukhamedov, U.Z., Karimova, A.B., Khakimova, Ya.T., & Abdusattorov A.A. (2022). Construction technology of new types of continuous reinforced concrete (monolithic) bridges and overpasses. Scientific Impulse, 1(4), 1023-1032.

Baxtiyerovna, K. A., & Ixtiyor o‘g‘li, B. A. (2023, April). Temirbeton kо‘priklarda gidroizolyasiyaning ahamiyati. In Proceedings of International Conference on Modern Science and Scientific Studies (Vol. 2, No. 4, pp. 536-541)

Mirzaev, I., Shermuxamedov, U., Karimova, A., & Askarova, D. (2022). Calculation of the stress-strain state of monolithic bridges on the action of real seismic impacts.

Shermukhamedov, U., Karimova, A., & Khakimova, Y. (2022). Real seysmogramma yozuvlari ta’sirida uzluksiz monolit ko‘prik konstruksiyalarining dinamik tahlili. Научный импульс, 291-296.

Шермухамедов У.З., Каримова А.Б. Современные подходы проектирования и строительства мостов и путепроводов в Республике Узбекистан // "Science and innovation" international scientific journal. Volume 1 Issue 8, UIF-2022: 8.2. ISSN: 2181-3337. – p. 647-656.

Karimova, A., & Shermuxamedov, U. (2022). Analysis of the dynamics of structures of monolithic bridges on the effect of real records of seismograms. TDTrU.

Karimova, A., Shermuxamedov, U., & Abdullayev, A. (2022). Seysmik ta’sirlarni hisobga olgan holda uzluksiz temirbeton ko’priklar va yo’l o’tkazgichlarga rezina-metall tayanch qismlar turini tanlash.

Кузнецова, И. О., & Шермухамедов, У. З. (2009). Основные принципы многоуровневого проектирования мостов. Вестник ТашИИТа, 3, 22.

Раупов, Ч. С., Маликов, Г. Б., & Зокиров, Ж. Ж. (2022). Методика Испытания Керамзитобетона При Кратковременном И Длительном Испытании На Сжатиe И Растяжениe И Измерительные Приборы. Miasto Przyszłości, 25, 336-338.

Шермухамедов У.З., Зокиров Ф.З., Абдуллаев А.Р., Каримова А.Б. Обоснование эффективности неразрезных (монолитных) мостов и путепроводов в условиях Республики Узбекистан // Научные труды международной научно – технической конференции с участием зарубежных ученых “Ресурсосберегающие технологии на транспорте”, TГТрУ. 2022, 2-3 декабрь. – с. 290-295.

Shermuxamedov U.Z., Karimova A.B., Abdullayev A.R. О‘zbekiston Respublikasi sharoitida turli xil statik sxemali temirbeton kо‘prik va yо‘lо‘tkazgichlarni texnik-iqtisodiy asoslanishi // Transportda resurs tejamkor texnologiyalar. Xorijiy olimlari ishtirokidagi respublika ilmiy – texnika anjumani maqolalari, TDTrU. 2022, 2-3 dekabr. – 300-305 b.

Кузнецова, И. О., Уздин, А., Шермухамедов, У. З., & Ван, Х. Б. (2010). Использование упругого полупространства для моделирования оснований при оценке сейсмостойкости больших мостов. Вестник гражданских инженеров, (3), 91-95.

Ixtiyor o‘g‘li, B. A. (2023). Аrkali va kombinatsiyalangan temirbeton kopriklarning konstruksuyalari va hisobiy sxemasi. Journal of new century innovations, 26(2), 169-172.

Downloads

Published

2023-07-01

How to Cite

Shermuxamedov Ulugbek Zabixullayevich, Karimova Anora Baxtiyerovna, & Barotov Ashurali Ixtiyor o‘g‘li. (2023). TEMIR YO‘LLARDAGI TRANSPORT INSHOOTLARINI LOYIHALASHNING ASOSIY QOIDALARI VA TAMOYILLARI. Scientific Impulse, 1(11), 321–329. Retrieved from http://nauchniyimpuls.ru/index.php/ni/article/view/10801

Most read articles by the same author(s)

Loading...