Materials engineering field looks into relationships between properties of materials and their mechanical structure at atomic level. This field also deals with practical application of material when the main factors of that are its properties, chemical structure, final form. Materials engineering has supportive areas as thermodynamics, mechanics, nanosciences , etc. Graduates gain understanding in behaviors and properties of various substances, from raw materials and designed products. They are employed by companies whose products are manufactured of ceramics, metal, rubber, plastic, etc.
This MSc in Engineering course builds on previous study and offers you an opportunity to research an engineering topic in depth.Our MSc in Engineering is accredited for Chartered Engineer status by the Institution of Engineering Designers (IED) and the Chartered Institution of Building Services Engineers (CIBSE). A pathway through our MSc is also accredited by the Institution of Mechanical Engineers (IMechE) and the Institution and Engineering and Technology (IET).
EIT ICT Labs Master School offers an international Master's program on ICT Innovation, combining and integrating technical majors with a fully standardized minor on Innovation and Entrepreneurship. As a student in the EIT ICT Labs Master School you not only get fundamental knowledge and skills on a technical topic, but also learn how to drive your innovative ideas to the market.
The Master of Science in Civil Engineering educates a general Civil Engineer, but not only, as it is focused on planning and construction of megastructures with the sustainable use of resources.
ESIEE Paris offers an international master of Electronics, with two options : "WIRELESS COMMUNICATIONS" (communications systems, analog and digital high-speed circuits, optoelectronic, ...) or "MICRO-NANO-TECHNOLOGIES" (sensors, BioMEMS, optical MEMS, nanodevices, energy, environment). Entirely taught in English, it trains engineers and young scientists with a high technical added value in the field of electrical engineering, together with strong management skills.
This four-course online certificate program provides students with the fundamental concepts associated with plastics materials, processing and design.
La creciente globalización de la actividad económica ha provocado un fuerte incremento de intercambios de bienes, servicios e información, lo que se corresponde a su vez con un aumento de los flujos de transporte de viajeros y mercancías.
Master's program "Quantum Physics for Advanced Materials Engineering" is devoted to the study of new physical phenomena discovered innanostructured materials and quantum devices created last 20-30 years in the search for components for quantumelectronics.
Nanotechnology is all about designing, fabricating and controlling materials and components with dimensions on the nanoscale, i.e. from 1 to 100 nm. By constructing materials and devices atom by atom or molecule by molecule, it is possible to obtain decisive control over their properties and develop unique materials with new and unexpected properties for applications within communication, data storage and data processing, (bio)sensors, catalysis or medicine just to mention a few areas.
A MS program “Advanced Metallic Materials and Engineering” offers high-quality postgraduate education in mechanical and aerospace engineering, and non-ferrous physical metallurgy.
The Master of Science, delivered by IPB (Bordeaux Institute of Technology), is in English and has been established by ENSCBP as an answer to the rapid evolution of today’s needs in industry and academics, allowing the students to adapt efficiently to the most recent technological innovations. It is based on the well-established know-how of ENSCBP and its partner laboratories concerning topics at the interface between chemistry, physics and biology.
The program is realized by Faculty of Information, Measurement and Biotechnical Systems. Educational programs of «LETI» are constantly modernized, following a principle «Training through research». Graduates of our university receive new, profound knowledge and practical skills of work.
The programme is cross-disciplinary and contains elements from physics, chemistry, nanotechnology and traditional mechanical engineering. The teaching combines lectures, laboratory work and project work.