G8 Materials Science

Specialty "Materials Science. Applied Materials Science and Engineering" is a modern interdisciplinary science focused on the creation, research, and improvement of materials for mechanical engineering, technology, energy, medicine, and other industrial sectors. This is achieved by combining knowledge from physics, chemistry, engineering, microscopy, and modern technologies. Graduates gain a high-demand profession with international prospects and the opportunity to implement innovations and create the technologies of the future.

Specialty «Materials Science. Applied Materials Science and Engineering» - this is a modern interdisciplinary science for the creation, study, and improvement of materials for mechanical engineering, technology, energy, medicine, and other sectors of industry. This is achieved through a combination of knowledge in physics, chemistry, engineering, microscopy, and modern technologies. Graduates obtain an in-demand profession with international prospects, the opportunity to implement innovations and to create the technologies of the future.

The program combines fundamental applied materials science with cutting-edge engineering, covering the entire product creation path: from the synthesis of nanostructures to the digital design of complex systems. Students learn to develop innovative technologies for manufacturing parts and welded structures, using computer modeling as the foundation of modern mechanical engineering. Mastering the physicochemical properties of materials, combined with digital control methods, allows our graduates not just to select raw materials, but to program the reliability and service life of future products. As experts in the equipment lifecycle, they are capable of conducting in-depth technical audits, identifying the causes of wear, and implementing engineering solutions that guarantee the durability of machines and structures in the most challenging operating conditions.

Program of training combines fundamental applied materials science with the latest engineering, covering the full path of product creation: from synthesis of nanostructures to the digital design of complex systems. Students learn to develop innovative technologies for manufacturing parts and welded structures, using computer modeling as the basis of modern mechanical engineering. Mastery of the physico-chemical properties of materials in combination with methods of digital control allows our graduates not only to select raw materials, but to program the reliability and lifespan of future products. As experts in the life cycle of machinery, they are able to conduct a deep technical audit, identify causes of wear, and implement engineering solutions that guarantee the durability of machines and structures in the most challenging operating conditions.

Materials Science Engineering is a complex of materials science and expert services that guarantee production stability and product competitiveness in the market. Our specialists implement a full cycle of technical support: from the design development of machines and devices to the synthesis of new alloys and their testing in real-world conditions. Due to their ability to combine design with commissioning work, materials science engineers are in exceptional demand in the industrial sector, leading scientific centers, and international technological organizations.

Classrooms are equipped with comfortable conditions for conducting lectures and seminars. Laboratories for practical classes feature updated, relevant equipment, namely: modern computers, multimedia boards, projectors, 3D printers, digital microscopes, hardness testers, a laser engraving machine, laboratory equipment for researching the properties of molding materials and mixtures, a vacuum melting furnace for casting, a scanning electron microscope with a low-vacuum chamber and an energy-dispersive microanalysis system, industrial welding equipment, and foundry production equipment.

Engineering in Materials Science – this is a complex of materials science and expert services that guarantee the stability of production and the competitiveness of products on the market. Our specialists implement the full cycle of technical support: from design development of machines and devices to the synthesis of new alloys and their testing under real conditions. Thanks to the ability to combine design with commissioning works, materials engineers have exceptional demand in the industrial sector, leading scientific centers and international technology organizations.

Lecture halls are equipped with comfortable conditions for conducting lectures and seminars. Laboratories for conducting practical lessons have up-to-date, modern equipment, namely: modern computers, interactive whiteboards, projectors, 3D printers, digital microscopes, hardness testers, laser engraving machine, laboratory equipment for studying the properties of molding materials and mixtures, foundry vacuum-melting installation, scanning electron microscope with a low-vacuum chamber and energy-dispersive microanalysis system, industrial welding equipment and foundry equipment.

Bases for internships and practical training for students of the "Materials Science" specialty are the leading manufacturing enterprises of our city.

Bachelors in the specialty G8 "Materials Science" are trained by the Department of "Materials Science and Foundry Production".

Our contacts:

Department of "Materials Science and Foundry Production", room 163, https://mlv.kntu.kr.ua, https://www.facebook.com/profile.php?id=100089903305733, (066)-336-47-97, Fill out the form.

Practice and internship bases for students of the specialty "Materials Science" are the leading manufacturing enterprises of our city.

Bachelors in the specialty G8 «Materials Science» are prepared by the Department of «Materials Science and Foundry Production».

Our contacts:

The Department of «Materials Science and Foundry Production», Room 163, https://mlv.kntu.kr.ua, https://www.facebook.com/profile.php?id=100089903305733, (066)-336-47-97, Fill out the form.