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Technologies for obtaining materials based on beryllium/tantalum, niobium

Abdulina Saule Amangeldyevna

Description: The main processes, apparatus and equipment used in modern production. Areas of application of materials for nuclear power. Raw materials sources for obtaining beryllium, tantalum and niobium. Obtaining composite powder materials and coatings with desired properties depending on the production technology. Requirements for product quality and methods of its certification.

Amount of credits: 5

Пререквизиты:

Physics of Condensed State
Physics of Condensed State

Course Workload:

Types of classes	hours
Lectures	15
Practical works
Laboratory works	30
SAWTG (Student Autonomous Work under Teacher Guidance)	30
SAW (Student autonomous work)	75
Form of final control	Exam
Final assessment method

Component: Component by selection

Cycle: Base disciplines

Goal

To form in students a system of knowledge of a specific metallurgical industry and successful adaptation in the production of the nuclear industry of Kazakhstan.

Objective

To give an idea of the main apparatus, equipment, technology for the production of materials based on beryllium, tantalum and niobium. To teach the professional terminology of the studied branch of knowledge and technology.

Learning outcome: knowledge and understanding

The acquired knowledge and skills will help in the practical activities of graduate bachelors focused on the production of rare metals

Learning outcome: applying knowledge and understanding

Based on the knowledge gained, be able to choose the method of production of materials based on beryllium, tantalum and niobium, the method of obtaining tantalum powders, taking into account the requirements of production. Knowledge of the basic principles of obtaining high-quality products that meet the requirements of consumers

Learning outcome: formation of judgments

Possess a culture of thinking, generalize and analyze the theoretical and technological provisions of the production of materials based on beryllium, tantalum and niobium; choose the most effective methods and methods of performing professional tasks.

Learning outcome: communicative abilities

Be able to work in a team, communicate effectively with the team, the management. Be able to listen and understand people, influence them, establish good personal and business relationships with them.

Learning outcome: learning skills or learning abilities

Independently determine the tasks of professional and personal development; engage in self-education; organize your own activities based on the goal and ways to achieve it.

Teaching methods

1) Technologies of traditional educational activities (lecture and seminar) 2) Technologies of quasi-professional activity 3) Technologies of educational and professional activity 4) Technologies of developmental learning 5) Technology of differentiated learning 6) Technology of business game

Topics of lectures

Бериллий
Гидрометаллургия бериллия
Пирометаллургия бериллия
Электрометаллургия бериллия
Медно-бериллиевые сплавы
Порошковая металлургия бериллия
Обработка бериллия давлением
Свойства и применение тантала и ниобия
Гидрометаллургия тантала и ниобия
Пирометаллургия тантала и ниобия
Получение и рафинирование тантала и ниобия электролизом
Плавка тантала и ниобия
Порошковая металлургия тантала и ниобия
Технология получения осколочных конденсаторных порошков
Технология получения губчатых конденсаторных порошков

Key reading

1 Матясова В.Е. Бериллий. Технология и производство - М: Из-во «ВНИИХТ», 2019. – 320 с. 2 Алшанов Р.А. Казахстан на мировом минерально-сырьевом рынке: проблемы и их решение - Алматы, 2011. - 471 с. 3 Гофман А.Е., Борсук А.Н., Донцов В.П., Новиков К.В. Покорители закрытых металлов - Усть-Каменогорск, 2019. - 449 с. 4 Сырнев Б.В. Технология бериллия, тантала и ниобия. Учебное пособие. ВКГТУ, 2009. -210с.

June 12, 2023 - National mourning day in the Republic of Kazakhstan