At its core, the program merges solid theoretical foundations with the latest hands-on methods. Centralized courses, cutting-edge laboratories, and close collaborations with leading companies ensure that students gain proficiency in both digital simulation and the practical implementation of innovative solutions. Areas such as robotics, computer-aided design, numerical simulations (FEM, CFD, etc.), materials science, and energy efficiency are at the forefront. Project-based learning formats create an immediate link to industrial applications, promoting the transfer of research findings into real-world technologies.
Another advantage of this Master's program is its close integration of science and industry. Through regular exchanges with experts and advisors, students receive insights into current trends and future developments, facilitating a smooth transition into leading roles in the industry and offering them the chance to actively contribute to groundbreaking innovations.
As a consecutive study program, the Master of Science in Engineering in Mechanical Engineering requires solid knowledge in development, manufacturing and optimization in industry or research. Applicants are also required to hold one of the following bachelor degrees:
- BSc in Mechanical Engineering
- BSc in Microtechnology
- BSc in Automotive Engineering
- BSc in Industrial Design Engineering
- BSc in Materials and Process Engineering
- BSc in Systems Engineering
Applications by interested students with different academic backgrounds will be considered on a case-by-case basis.
Graduates of this Master's program can open doors to diverse career paths - whether in the automotive and aerospace industries, in the production of state-of-the-art machinery, or in companies within the renewable energy and high-tech sectors. This program provides the ideal platform to shape both one’s personal and professional future in a sustainable and successful manner.
