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Eötvös Loránd University Mechanical Engineering MSc
Eötvös Loránd University

Mechanical Engineering MSc

Szombathely, Hungary

2 Years

English

Full time

Request application deadline

Sep 2024

EUR 3,200 / per semester *

On-Campus

* Application fee: €80

Introduction

Mechanical Engineering MSc

The goal of this program is to train mechanical engineers with professional knowledge based on a solid theoretical and industrial background. As the output of the program, the graduated engineers will have the skills to take part in designing and manufacturing complete machines or machine elements, use Computer Aided Engineering (CAE) tools, operate and develop complete production chains in various engineering fields.

Mechanical Engineers must have a general problem-solving attitude while also need to be able to participate in teams of large-scale projects.

This program is recommended to applicants who are interested in Industry 4.0 applications.

This program enables students to obtain fundamental knowledge in the science of Mechanical Engineering in Production Technologies. The education program involves strong fundamental subjects such as Applied Solid- and Fluid Mechanics together with cutting-edge computational tools such as Computer-Aided Design (CAD) Computer Aided Engineering (CAE), and Finite Element Methods (FEA).

Students learn the theory as well as the methodologies and techniques in the development and implementation of engineering systems and structures. The more practical courses are aided by state-of-the-art laboratories like the Laboratory of Materials Sciences, the Laboratory of Production Technologies or the Control Technique Laboratory.

Possibility of dual training system from the 2nd semester in our industrial partners, which combines training at work and University.

Strengths of the program

The structure of the MSc program is built on subjects in applied engineering sciences including the specialization of Machine Design and Construction Analysis. The program puts special emphasis on modern design and analysis skills such as computer-aided design (CAD), Finite Element Method (FEM), Computational Fluid Dynamics (CFD) that are widely applied today in the industry, and the entire process from the design to the final product.

The high standard of training is guaranteed by the highly qualified academic staff. Teaching is supported by modern infrastructure (tensile tester, CNC machines, SEM microscope, robots, etc…) and well-equipped computer labs (software like Ansys, Solid Edge, Inventor, ADAMS, Matlab)… The students of higher years and Ph.D. students help the first-year students in a mentor system to overcome their first challenges at the university.

In addition to the high level of theoretical training, the Faculty's relationship with the business community, and the joint research and development projects offer up-to-date practical knowledge and experience to the students.

Extracurricular graduate research activities of the students are supported and supervised by leading scientists of the Faculty. These students present their findings at both national and international conferences.

Another important strength of the program, since the number of places is limited, the students can work more efficiently with the professors in small groups. This provides a great advantage in mastering the subjects at a higher level.

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