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MAMaterials Engineering

More information

felveteli.mk.uni-pannon.hu/..gineering-msc 

Overview

Program description:
Aim of the program is to issue MSc degree to engineers having sound knowledge of structure, properties, behaviour of technical materials such as metals and alloys, ceramics, glasses, binding materials, polymers and plastics, as well as composites made thereof and new functional materials. Based on their knowledge these engineers are able to develop, operate, organize, and manage manufacturing, forming, and processing technologies, they can conduct and co-ordinate research and development and continue their studies at postgraduate (PhD) level.

Entry requirements:
relevant BSc degree, TOEFL 66 or IELTS 5.5, Attestation of language proficiency in case of English language former study (full BSc programme)

Entrance exam:
Yes

Type of entrance exam:
oral

Entrance exam location:
Electronic

Entrance exam description:
Oral exam containing questions regarding the core subjects.

Contact:
Dr. Kristófné dr. Makó Éva
associate professor
kristofne.mako.eva@mk.uni-pannon.hu

Preparatory year available:
No

Specialization year available:
no

Minimum number of scholarship holders:
5

Maximum number of scholarship holders:
20

Link:
studyinhungary.hu/institution/university-of-pannonia-88.html

Programme structure

The structure of the program is presented according to the academic and output requirements.

1. Subjects in natural sciences: 24 credits
mathematics, physics, chemistry, physical-chemistry

2. Economics and humanities: 10 credits
management, communication, marketing, materials science related companies, law.

3. Materials engineering core courses: 32 credits
materials science, modern surface analysis techniques, constructional materials and their technology, ceramics, polymers and composites, advanced glasses, testing of structural materials, process control, laboratory practice in machine elements.

4. Enhanced and extended studies in materials engineering: 48 credits
nuclear metrology, 28 credits
flow and heat engineering machines, transport phenomena, optics and laser technology, special topics, materials engineering design, NMR spectroscopy, instrumental analytical techniques; Nuclear Energetics; Nuclear Waste Management; Laboratory Practices in Radioecology; Nuclear chemistry and isotope technique; Uses of radioisotopes; Radiotracer Technologies; Lessons from the nuclear and radiation accidents; Dosimetry and radiation protection; Radioecology and Radiation Protection; Nuclear emergency management.

thesis 20 credits

5. Facultative subjects: 6 credits

Altogether 120 credits

Career opportunities

Material engineers who have completed the program can be employed as research developers, and production management engineers in the glass, ceramics, enamel, and binder industry, in research institutes and are suitable for solving tasks related to material technology, material testing as well as production and processing.
Material engineers with their acquired knowledge in material testing and material qualification can also perform forensic and quality assurance management tasks.

Not available for applying at the moment
Not available for applying at the moment