Modern Materials Design and Application
Modern Materials Design and Application (MMDA) master’s degree program is an educational offer dedicated to graduate students with general background in materials science including materials physics, chemistry, and engineering. The coursework program of MMDA allows students to grow adept in the knowledge and skills of advanced materials and processing technologies. The programme encompasses lecture, seminar, project, and laboratory classes focused on the designing processes and materials, application of modern synthesis and processing techniques including plastic working, heat treatment, powder metallurgy and other advanced technologies featured for modern materials science. Courses and activities are aimed into better understanding structure-property-performance-application relationship and to give students an expertise in evaluating, designing, improving and fabrication of unique materials based on non-ferrous metals and alloys. Curriculum of MMDA introduces also courses allowing students to develop communication and presentation skills, entrepreneurial initiatives, teamwork, and leadership skills as well as socio-economic competencies.
Mentor of the field of study: dr hab. inż. Anna Kula, prof. AGH
View full description of the field of study
Study programme determined by Resolution No. 41/2022 of the AGH UST Senate of 30 March 2022
Summer semester, 2022/2023
First semester allows for students to acquire fundamental and advanced knowledge in the field of materials science and engineering of non-ferrous metals, alloys, and composites. In-depth knowledge on materials characterization and process automation is available for students within the framework of elective courses.
| Course | Number of hours | ECTS credits | Form of verification | |
|---|---|---|---|---|
|
Innovative sintered materials and composites
|
Lectures:
30 Laboratory classes: 30 Seminars: 15 |
5 | Exam | O |
|
Product Quality Management
|
Lectures:
30 Project classes: 30 |
4 | Exam | O |
|
Advances in non-ferrous metals science
|
Lectures:
30 Discussion seminars: 15 Seminars: 30 |
5 | Exam | O |
|
Fundamentals on non-ferrous metals engineering
|
Lectures:
30 Laboratory classes: 15 Project classes: 30 |
5 | Exam | O |
|
I Elective courses - Characterization of materials and process automation, semester I
|
Total number of contact hours:
90 |
6 | Completing the classes | O |
|
II Elective courses - subjects in the areas of humanities and social sciences (second-cycle studies)
|
Total number of contact hours:
75 |
5 | Completing the classes | O |
| Sum | 450 | 30 |
Winter semester, 2023/2024
Second semester allows for students to acquire knowledge about the processing and technology innovations as well as modern materials for the medical, automotive, aerospace and energy applications.
| Course | Number of hours | ECTS credits | Form of verification | |
|---|---|---|---|---|
|
Light metals and alloys
|
Lectures:
30 Laboratory classes: 15 Seminars: 30 |
5 | Exam | O |
|
High pressures in material technologies
|
Lectures:
30 Seminars: 30 |
4 | Exam | O |
|
Modern methods for the separation and purification of metals
|
Lectures:
30 Laboratory classes: 15 Project classes: 30 |
5 | Exam | O |
|
Modern processing of non-ferrous metals
|
Lectures:
30 Laboratory classes: 15 Project classes: 15 |
4 | Exam | O |
|
Modern techniques for metal analysis
|
Lectures:
15 Laboratory classes: 30 Project classes: 15 |
4 | Exam | O |
|
III Elective courses - Materials and processing innovations, semester II
|
Total number of contact hours:
90 |
6 | Completing the classes | O |
|
IV Elective courses - Technical Foreign Language (level B2+), semester II
|
Foreign language classes:
30 |
2 | Exam | O |
| Sum | 450 | 30 |
Summer semester, 2023/2024
Third semester provides to students with the knowledge related to functional and structural materials including nanomaterials, advanced composites, materials inspired by nature and surface coatings. Students are also involved in the research work leading to master thesis and diploma.
| Course | Number of hours | ECTS credits | Form of verification | |
|---|---|---|---|---|
|
Diploma Thesis
|
Diploma Thesis:
0 |
20 | Completing the classes | O |
|
Diploma Seminar
|
Seminars:
30 |
2 | Completing the classes | O |
|
V Elective courses - Advanced functional materials, semester III
|
Total number of contact hours:
120 |
8 | Completing the classes | O |
| Sum | 150 | 30 |