Zamira Amirova, a 2nd-year student of the Department of Journalism and Social Sciences at the Faculty of History, Economics, and Law, achieved outs Read more
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On March 19, 2026, the Faculty of History, Economics, and Law celebrated the grand opening of a new recreation area, the «Kitchen Room». The event too Read more
On March 18, 2026, as part of the Day of National Clothing, a vibrant flash mob titled “National Clothing – Pride of the Nation” was held in the Educa Read more
On March 17, 2026, as part of the celebration of Shanyrak Day, a round table titled “Shanyrak – a Symbol of Unity and Health” was held at the Educatio Read more
On March 16, 2026, as part of the Day of Culture and National Traditions, an interactive platform titled “Traditional Medicine and Culture of the Kaza Read more
On March 15, 2026, as part of Charity Day, a volunteer campaign titled “Do Good — Warm a Heart!” was organized at the Faculty of Medicine. Students o Read more
On March 14, 2026, the Faculty of History, Economics, and Law hosted a festive event dedicated to the traditional Kazakh holiday «Kөrisu kuni», also k Read more
On the eve of the celebration of Gratitude Day, on February 27, 2026, a charity fair was held at the Faculty of History, Economics and Law, bringing t Read more
On February 27, 2026, in anticipation of the «celebration of Gratitude Day», the Faculty of History, Economics, and Law hosted a warm gathering and a Read more
On February 27, 2026, the Faculty of History, Economics and Law held a career guidance meeting with students of the «Foundation» program and future ap Read more
Разработка лазерной технологии изготовления комбинированных лопаток турбин ТЭЦ повышенной износостойкости, модифицированных диоксидом циркония концепции уровня Industry 4.0 на базе ISO/ASTM
The IRN AP26484701 project is being implemented as part of grant financing for 2024-2026. Ministry of Science and Higher Education of the Republic of Kazakhstan.
Project manager: Ratushnaya T.Yu., PhD (Hirsch Index h=5, https://orcid.org/0000-0002-8308-198X, Scopus Author ID: 57210393050, ResearcherID AAY-6445-2020)
Project executors: Ratushnaya T.Yu., Savinkin V.V., Kashevkin A.A., Dyachenko R.Yu., Lutsak S.M., Rakhmatulin M.L., Ivanishchev A.A.
Implementation period: 01.07.2024 – 31.12.2026
Total amount of financing: 119 876 373 tenge.
Project objective: Develop design and technological modules for honeycomb-shaped damper cells inside turbine blades that adapt structural and phase changes in the blades to turbine operating conditions.
Expected results: An integrated laser technology will be developed that will enable the production of adaptive thermal power plant (TPP) turbine blades with enhanced wear resistance, increasing microhardness by 12–18%; enhancing thermal stability to 950°C; reducing the friction coefficient to 0.18; and increasing the service life of TPP turbine blades by 28–32%.
Project Description: The use of technology for manufacturing innovative turbine blades with highly concentrated laser energy sources, the formation of a martensitic phase and systems of structural modules for stress redistribution will increase the energy efficiency and resource durability of turbine blades in the energy sector of Kazakhstan and increase competitiveness.
The implementation of the project will provide the development of a methodology for substantiating the optimal technological and economic characteristics of laser manufacturing of innovative turbine blades of energy complexes, ensuring the durability of high-load turbines with dynamic load, the methodology of synthesis, algorithmization, 3D prototyping, theory and practice of multifactorial experiment. It will make it possible to apply energy saving by introducing a module for adapting the phase changes of the blade to the operating modes of the turbine, redistributing power in the units, using the coercive resistance forces of the complex.