The name of the competition under which the program is being implemented: Grant funding competition for young scientists under the project "Zhas Galym" for 2024-2026.
Project Leader: Meruert Erkinovna Utegenova, postdoctoral researcher at the Research Center "VERITAS."
Identifiers:
- Hirsch Index: 2
- ResearcherID: AAS-5218-2020
- ORCID: 0000-0003-0206-4799
- Scopus Author ID: 57211600803
Research Team
| No. | Full Name | Role in the Project | Identifiers (Scopus Author ID, ResearcherID, ORCID if available) and links to relevant profiles |
|---|---|---|---|
| 1 | Meruert Erkinovna Utegenova | Project Leader | Hirsch Index: 2, ResearcherID: AAS-5218-2020, ORCID: 0000-0003-0206-4799, Scopus Author ID: 57211600803 |
| 2 | Marzhan Anuarbekovna Sadenova | Scientific Consultant | Hirsch Index: 6, ResearcherID: E-6895-2017, ORCID: 0000-0002-2870-6668, Scopus Author ID: 6506023050 |
Project Abstract
The development of modern industry levels requires fundamentally new solutions for the creation of ceramic materials technology with high-performance characteristics. Compliance with quality standards for ceramic materials is dictated by many technological parameters. This requires a large number of experiments and theoretical research. One of the most important tasks is the processing and analysis of experimental data, which often presents a serious problem due to the large amount of data, complex methods of processing, and interpreting the results. Mathematical modeling is a key tool for solving research problems.
In practical activities, it is often necessary to estimate parameters, that is, to build a mathematical model and find numerical values for the parameters of this model. The results of an experiment, which is a set of several measurements performed according to a certain plan, serve as the initial data for constructing the model. It is proposed to synthesize advanced ceramic materials using powder metallurgy methods, varying parameters such as the composition of the molding mass, thermal treatment temperature, pressing pressure, and other characteristics of the synthesis process.
The project aims to make a significant contribution to the development of domestic science and advanced industry. The general idea of the project is to create an innovative approach to the synthesis of ceramic materials by combining modern digital technologies with methods of processing natural raw materials and by-products of non-ferrous metallurgy.
Project Goal: To develop a digital production technology for advanced ceramic materials based on powder metallurgy methods from a mixture of non-ferrous metallurgy by-products and natural raw materials, optimizing technological processes based on mathematical calculations and computer modeling.
Project Objectives:
- Prepare an analytical review on the prospects and feasibility of using non-ferrous metallurgy by-products in the production of advanced ceramics.
- Investigate the properties of domestic non-ferrous metallurgy by-products and natural raw materials to select methods for synthesizing advanced ceramic materials.
- Mathematically model the proposed technical solutions and technological conditions for obtaining advanced ceramic materials based on combined powder metallurgy methods.
- Determine the main technological parameters and regimes for obtaining advanced ceramic materials and study their performance properties.
- Develop optimal compositions of ceramic masses based on non-ferrous metallurgy by-products and natural raw materials to ensure the required physical and mechanical characteristics of the products.
- Model the design of technological equipment for the extrusion of advanced ceramic materials with a block structure of the given configuration.
- Produce a pilot batch of advanced ceramic materials with the specified properties.
- Conduct comprehensive laboratory studies of the obtained materials using modern scientific research equipment.
- Model the stages of the digital technology being developed for the synthesis of advanced ceramic materials.
