Materials Science and Engineering
Technical University of Munich offers this 24-month English-taught master's in Engineering in Munich, ranked #27 by Times Higher Education.
What it takes to get in
- Deadline
- 31 May 2027
- Apply via
- uni-assist
What it costs
No tuition fees here — just plan for a normal Munich student life.
Living in Munich →
What you'll study
120 ECTS over 24 months — core foundations, then a track of your choice, then a thesis.
In response to the new challenges of contemporary society, there is an ever greater intertwining of expertise in the natural and engineering sciences. Modern education in the engineering sciences must, in turn, prepare students not only in classical disciplines, serving the needs of specific industries, but it must also address the need for interdisciplinary training. The master's program in Materials Science and Engineering rises to this challenge by offering a scientific, interdisciplinary education in engineering, involving a total of seven departments (BGU, Chemistry, Electrical Engineering and Information Technology, Informatics, Mechanical Engineering, Mathematics and Physics). Key objectives of the program include, enabling students to physically and mathematically model complex technical-physical processes and systems accounting for the materials to be employed, that is, to theoretically comprehend and apply the fundamental disciplines of engineering and to chemically and physically describe them. Additionally, the program accounts for the current paradigm shift away from deterministic models towards predictive science. It is this that makes the TUM MS&E program unique, as it is designed to give students a probabilistic view of the material properties of physical and engineering science systems from the start and, thus, to convey the necessity of stochastic modeling, which has not yet made its way into the curricula of other programs. The MS&E program finds its institutional home in the Munich School of Engineering (MSE). Founded in 2010 with the aim of advancing interdisciplinary education in the engineering sciences, the MSE has established a number of bachelor’s and master’s degree programs to this end. Students of the MS&E master's program, thus, benefit from proven structures and networks that provide optimal conditions of study. Which further expertise and skills will I acquire? Upon successful completion of the master’s degree program in Materials Science and Engineering, students have in-depth knowledge of modeling, calculation, prediction, monitoring and testing of innovative material solutions for complex applications across all technology sectors; recognize the need for the quantification of predictive quality, the probability distributions of results, and the quantification of risk and uncertainty; are able to design and implement scientific and interdisciplinary projects in the field of materials science as applied in the engineering disciplines; and have acquired the methodological and cognitive skills that enable them to develop and carry out research in this field or, alternatively, to seamlessly progress to doctoral studies. Which professional opportunities can I take up with this qualification? Graduates are qualified to pursue opportunities in research, development, and teaching at research institutions and universities, as well as in interdisciplinary industries, such as the aerospace and energy sectors, medical technology, testing, measurement and monitoring technology and other sectors in which interdisciplinary engineering plays a central role. Program structure In the first part of the program (semesters 1 and 2), students acquire sound fundamental disciplinary knowledge. In required modules, offered exclusively in English, students are familiarized with materials science, multi-scale models, numerical methods, non-linear fluid and solid mechanics and the quantification of uncertainties. In the second part of the program (semesters 2 and 3), students begin to focus their studies to specialize in one of four areas: Multiscale Material Principles, Materials in Engineering Applications, Uncertainty Quantification & Mathematical Modeling and Material Characterization, Testing & Surveillance. Specialization is completed in two stages: In Area I (specialization specific), students select modules for their elective studies from a limited set of offerings listed in the module catalog. In Area II (individual elective), students select from a broad range of elective modules to suit their specific desired focus. Sample curricula for each of the four areas of specialization are available for your perusal. Modules from both areas I and II are taught chiefly in English, otherwise in German. Fundamental disciplinary training and specialization are supplemented with scientific skills modules (recommended in semesters 2 and 3), as well as with required and elective internship modules in practical scientific work. The Advanced Research Internship (recommended in semester 3) is a special feature of the program. Integrated into an established research team, students prepare a scientific paper under supervision, which ideally results in their first independent contribution to the scientific discourse in their area of research. Required and elective modules are taught in English or German. The program concludes in semester 4 with the master’s thesis module. The thesis should be written in English. A stay abroad is explicitly recommended for students and is offered either as part of the Advanced Research Internship or in the specialization phase in the third semester. Language of instruction Required language skills for admission: You need sufficient English language skills if you wish to apply for this program. Evidence of your proficiency in English has to be submitted before the end of the application deadline. Learn more about recognized certificates and other ways to prove your language skills. This evidence of your language proficiency confirms that you comply with the minimum language requirements for admission to the program. Depending on the program and your individual background, it may be necessary for you to keep working on your language skills during your studies. Be sure to take a look at the services of our Language Center. Languages of instruction: The language of instruction for this program is English. Some elective modules are offered in German. Information on study organization Information on exams Contact Examination Board Information on studying abroad Fees for the program The tuition fees for international students from third countries for this degree program are 6,000 euros per semester . Many international students can have their fees waived or receive scholarships to finance them. You can find all information on waivers and scholarships here. Please note: The semester fee as a contribution to the student union must be paid additionally. It varies depending on where you are studying. You can find all information on the semester fee here. Academic Regulations:
Rankings
- Times Higher Education 2026#27
- Times Higher Education 2025#26
- QS World 2025#28
- QS — Engineering 2025#16
Visa & life in Germany
The practical stuff — what's allowed, what's funded, what to expect after you graduate.
- Student visa
- Non-EU students need a national (D) visa plus a residence permit after arrival; proof of finances (blocked account, ~€11,900/yr) is the main requirement. EU students just register locally (Anmeldung).
- Post-study work
- 18-month job-seeker residence permit after graduation — you can work without restriction while searching for a position matching your qualification.
- Tuition
- Public universities charge no tuition for most programmes — just a semester contribution of €150–€400. Exceptions: Baden-Württemberg (€1,500/semester for non-EU) and some TUM professional master's.
- Scholarships
- DAAD scholarships for international students, Deutschlandstipendium (€300/month, merit-based), plus Erasmus+ for EU mobility.
About Technical University of Munich
Technical University of Munich enrolls 47,047 students and offers 83 programs across engineering, business and law, and computer science and IT. The institution ranks #26 in the Times Higher Education overall rankings for 2025, with subject strengths in engineering (#16 in QS Subject rankings) and computer science (#26 in QS Subject rankings).
Worth comparing
Same field, similar entry tier. Most applicants apply to 3–5.
Common questions
Is Materials Science and Engineering at Technical University of Munich taught in English?
Yes — the programme is taught entirely in English.
What is the acceptance rate at Technical University of Munich?
Not published. Most European public universities don't release acceptance rates — admission is requirements-based, so if you meet the stated requirements your application gets a full review rather than competing against a fixed quota.
Do I need GRE or GMAT scores?
No — GRE and GMAT scores are not required for this programme.
Can I work in Germany after graduating?
Yes. Germany grants graduates of German universities an 18-month residence permit to look for work matching their qualification, and you can work without restriction during the search period.
When is the application deadline?
The application deadline is 31 May 2027. Deadlines can differ by nationality — confirm on the programme page.
Is Technical University of Munich good for Engineering?
Technical University of Munich ranks #16 in Engineering (QS 2025).
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