Specialisation: Materials engineering
Students attending this course will be able to select and use properly the materials that already exist and also they will be able to create and design new materials, bearing special features, that are more and more required in high performance technical fields; other interests of the specialists will relate to environmentally friendly materials aimed at replacing the traditional ones with a higher content of damaging components, to the field of materials legislation, materials recycling and the workability of these materials by means of the most high level techniques amd methods.
This specialisation is co-ordinated by the Department of Materials Science and Technology.The academic staff that teaches young students attending this speciality is formed of prestigious personalities, among which a Corresponding Member of the Romanian Academy, several members of the Technical Academy in Romania, nine Ph.D. supervisors. The equipment used for the trainig and research includes high performance EDX Jeol scanning microscope (Japan), differencial heat analysor (Franta), masina univerroom machine for computer-controlled mechanical tests, computer-based data acquisition and processing systems, computers and software of high level performance.
The engineers reciving a diploma engineer degree in Materials engineering have important opportunities of finding a job on the labour market, as specialists that wioll have to properly select and make use of materials and technologies in larger fields of industry, such as machine manufacturing, research centres and laboratories, provate production companies, higher education, expertise and approval companies.The graduates can attend post-graduate courses in “Special new materials” or Ph.D. courses in “Materials Science and Engineering”. Scholarships for study or research offered by the Ministry of Educatiuon or internaional bodies, international exchange programmes (with French, German or other universities) are also available for our students at all levele of study.
SUBJECTS
1st year
1-st semester |
2-nd semester |
Mathematics I |
Mathematics II |
Physics I |
Physics II |
Chemistry I |
Chemistry II |
Materials science I |
Materials Science II |
Computer use and programming |
Computer use and programming |
Descriptive geometry and technical drawing |
Descriptive geometry and technical drawing |
Social and humanistic subject |
General economy |
Physical education |
Physical education |
Foreign languages |
Foreign languages |
|
Practical field training field training |
2-nd year
1-st semester |
2-nd semester |
Electrotechnics |
Thermotechnics II |
Mathematics III |
Strength of materials I |
Materials technology I |
Mathematics IV |
Mechanics |
Physical chemistry I |
Fluid mechanics |
Crystallography / Mechanics */ Natural recourses and their use ** |
Thermotechnics I |
Computer aided graphics |
Electronics |
Materials technology II |
Foreign languages |
Foreign languages |
|
Practical field training field training |
3-rd YEAR
1-st semester |
2-nd semester |
Solid thermodynamics |
Metal cutting |
Mechanisms and machine elements |
Mechanisms and machine elements |
Strength of materials II |
Plastic deformation and fracture mechanics |
Physical chemistry II |
Physical metallurgy |
Labour and environment protection |
Properties of materials |
Metal cutting |
Welding and associated processes |
Alloy solidification |
Heat treatment and surface engineering |
Properties of materials |
Theory of diffusion processes |
|
Computers in materials science |
|
Practical field training |
4-th year
1-st semester |
2-nd semester |
Heat treatment and surface engineering II |
Plastics materials engineering |
Solid physics |
Special methods for materials development |
Plastics materials engineering |
Metallic materials |
Materials structure research methods |
Technological equipment |
Materials economy |
Special materials |
Trade and labour law |
Powder metallurgy |
Industrial management and marketing |
Ceramic and glass materials |
Materials management |
Corrosion and anticorrosive protection means |
Synthesis of alloys (optional) |
Experimental research methodology (optional) |
5-th year
Metallic materials |
Ceramic and lass materials |
Composite materials |
Materials for electrotechnics and electronics |
Quality engineering |
Materials selection and design |
Biomaterials /Magnetic and supraconductive materials (elective) |
Amorphous and nanochrystalline materials (optional) |
