In order to successfully obtain a Masters qualification, you will need to obtain a number of credits by passing individual modules. Most taught Masters will have a number of core modules which you must take and pass in order to obtain the qualification. The assessment of research Masters is almost always entirely by a single dissertation module or project.
The field of materials science combines disciplines, including engineering, chemistry, biochemistry and other technologies, in order to research and develop new materials for use in manufacturing. This growing field prepares students to work towards solving problems on a global scale as natural resources become threatened.
Spain (Spanish: España) is a diverse country sharing the Iberian Peninsula with Portugal at the western end of the Mediterranean Sea. Spain is considered an exotic country in Europe due to its friendly inhabitants and relaxed lifestyle. The normal duration for University courses in Spain is 4 years, except Medicine and the double degrees, which are 6. Madrid and Barcelona are well known cities around world for its cuisine, vibrant nightlife, and world-famous folklore and festivities.
Top Master Programs in Materials Science in Spain 2018
The AMASE Masters course has been successfully implemented over the last five years with funding from the Erasmus Mundus Programme. [+]
The AMASE Masters course has been successfully implemented over the last five years with funding from the Erasmus Mundus Programme. Scholarships are available for students from all over the world and are between 500 EUR and 1000 EUR per month. The course has demonstrated high quality throughout. In order to ensure the programme's continuity - the "non-selected status" may prove temporary and only last until the next call - the consortium delivering this Joint Masters course has been awarded by the European Commission/EACEA an Erasmus Mundus Brand Name (EMBN) by which it commits itself to maintain the requirements and level of excellence expected from an Erasmus Mundus Masters Course.... [-]
Structure of the study Obligatory subjects Physics of lasers Chemical and environmental applications of lasers Laboratory of fundamentals of lasers [+]
Mandatory CoursesPhysics of lasers Chemical and Environmental Applications of Lasers Lasers Fundamentals Laboratory Fundamentals of photonics Industrial applications of lasers
Optative subjectsIndustrial photonics sensors Biophotonics Sustainable lighting Nanofotonic laboratory Photonics and Aerospace Technology Industrial Photonics Laboratory Metrological applications of lasers Practices in companies or R & D centers
Work End of MasterWork End of Master [-]
Study Structure Module 2. UDC Introduction to complex materials Vicoelasticity of materials Thermo-mechanical properties of materials. Fundamental Methods [+]
Module 2. UDCIntroduction to complex materials Vicoelasticity of materials Thermo-mechanical properties of materials. Fundamental Methods Termomechanics of Materials Properties. Advanced Methods Statistical data analysis Applications to environmental protection Thermal treatments and analysis by laser Thermo-mechanical fatigue
Module 1. U Paris 7Rheophysics of complex fluids Structured materials. Nanomaterials Physical-chemistry of polymers Statistics of Polymer Physics, Light scattering techniques. Microscopy Physics of Soft Matter, Interfaces Mechanics of continuous media Acoustic Waves ... [-]
The aim of this programme is to train new professionals specialised in the field of Nanotechnology, Materials and Chemical Engineering (coming from undergraduate degrees in any of the branches of experimental sciences and technologies: Chemistry, Chemical Engineering, Biochemistry, Biotechnology, Physics, Quantum Chemistry, Biological Chemistry, Microbiology,...) with a clear orientation towards research... [+]
The aim of this programme is to train new professionals in the field of nanotechnology, materials and chemical engineering. It is of particular interest for graduates in any of the branches of the experimental sciences and technologies (chemistry, chemical engineering, biochemistry, biotechnology, physics, quantum chemistry, biological chemistry, microbiology, etc.) and it clearly prepares them for future research.
The students will acquire the skills required for them to join universities, research institutes, industry and services with a strong sense of innovation, development and entrepreneurial vision.... [-]
The Master in Science, Technology and Applications of Ceramic Materials is proposed as an option for graduate degree holders in Chemical Engineering or a related degree. But in addition, this degree is designed so that its contents are equally useful to provide [+]
This master is presented as an option for graduate degree holders in Chemical Engineering or a related degree. But it has also been designed so that its contents are useful to provide current graduates and engineers trained in complementary and cutting-edge ceramic technology. With the contents of master specialization in ceramic engineering, highly demanded in the largest industrial sector in the vicinity of the UJI, with which it aims to achieve the following objectives conferred: prepare technically to understand, analyze and solve the problems of processing of ceramics; provide essential knowledge for engineering practice applied to ceramics; instruction in the rigor that requires professional engineering practice applied to ceramics.... [-]
The Masters in Mechanics of Materials and Structures is aimed at students who wish to develop their knowledge and skills in the field of the mechanical behaviour of materials and structures. [+]
The Masters in Mechanics of Materials and Structures is aimed at students who wish to develop their knowledge and skills in the field of the mechanical behaviour of materials and structures. Its objective is to link the current knowledge of theories of the behaviour of materials with the most innovative techniques in structural engineering. The proposed syllabus places special emphasis on computational techniques, materials mechanics, advanced structural design and experimental techniques. The masters provides students with the skills to understand the aims of the disciplines involved and with the capacity to design solutions to advanced problems in this field.[-]