A masters is awarded to students who have completed postgraduate level study in a specific field of study or area of professional practice while demonstrating a high level of mastery during the process.
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.
University of British Columbia - Faculty of Applied Science
The Master of Engineering Leadership (MEL) in Advanced Materials Manufacturing is designed for engineers who want to advance their careers in the automotive, aerospace an
*The application system opens on January 2nd, 2019.
The Master of Engineering Leadership (MEL) in Advanced Materials Manufacturing is designed for engineers who want to advance their careers in the automotive, aerospace and manufacturing sectors.
Advanced simulation tools are an integral facet of the program, and you will gain foundational knowledge in the latest composites, light alloys and advanced high-strength steels currently used and planned for the future. Combined with leadership courses to enhance business and communication skills, you will be equipped to develop innovative solutions, manage teams and direct projects.
In the last decade, it has become clear that companies must reinvent their advanced manufacturing capabilities to remain globally competitive. There is a growing need across multiple industries for engineers with the technical skills and expertise to research, develop, test and optimize these next-generation manufacturing solutions. This is a rapidly evolving field, and companies are challenged to find engineers who have the sector-relevant cross-disciplinary technical expertise to develop innovative solutions....
The 2nd cycle in Materials Engineering, a course with a specialization in Materials for aeronautics, of Atlântica , aims to respond to the needs of the labor market and a
The 2nd cycle in Materials Engineering, a course with a specialization in Materials for aeronautics, of Atlântica , aims to respond to the needs of the labor market and aims to train professionals with the advanced skills and knowledge in Materials for Aeronautics, or related areas, essential to the Engineering activities in a growing industry in Portugal.
The Master's degree aims to train students to demonstrate technical and professional leadership as well as the adaptability required in an ever-changing society.
Industry needs Material specialists to master and implement this knowledge in practical applications. In order to fulfill the objectives defined for this cycle of studies, the curricular plan was drawn up in consultation with the industry, assuring the interest of future employers, and with teachers from other Portuguese Higher Education Institutions....
Master's Degree Programme in Photonics is a two-year programme taught in English at the Institute of Photonics, University of Eastern Finland, Joensuu, Finland. Master's
Master's Programs in Materials Science . About
Master's Degree Programme in Photonics is a two-year programme taught in English at the Institute of Photonics, University of Eastern Finland, Joensuu, Finland. Master's degree in Photonics offers outstanding skills needed in international careers in optics, photonics, and related fields. The programme covers all important aspects from theory to practical work in laboratories with world-class facilities. The education is based on high-quality photonics research in the department. Our graduates find work as technology specialists, researchers, and project managers in the development organizations and R&D departments of the photonics industry.
A generous scholarship scheme is offered to those students who are required to pay tuition....
National University of Science and Technology MISIS
Master's program "Quantum Physics for Advanced Materials Engineering" is devoted to the study of new physical phenomena in nanostructured materials and quantum devices cr
The Master's program Quantum Physics for Advanced Materials Engineering is devoted to the study of new physical phenomena discovered in nanostructured materials and quantum devices created last 20-30 years in the search for components for quantum electronics. At the same time, the program addresses the basic physical principles of electronic systems and devices of quantum electronics, as well as some important manufacturing techniques and measurements of physical and chemical characteristics of quantum-sized structures and materials.
The program is designed for students trained in the number of university courses in general physics and introduction to theoretical physics for a Bachelors, which includes the courses: theoretical mechanics and the theory of elasticity, electrodynamics, quantum mechanics and statistical physics. The program does not involve a starting special training of students in the condensed matter physics, because it includes basic courses in:...
The master program “Advanced Metallurgical Engineering” is concerned with the development, production, and processing of ferrous, non-ferrous, and mineral materials. It i
The master program “Advanced Metallurgical Engineering” is concerned with the development, production, and processing of ferrous, non-ferrous, and mineral materials. It is the basis for innovative products and new technological developments in the fields of industry, technology, and medicine. Research in this department focuses on materials design. It includes general research to ascertain the structure of and opportunities for optimising known materials, for example, steel, aluminium, magnesium, glass, ceramic. Scientists in this division also deal with issues relating to surface technology, recycling, manufacturing, and processing using state-of-the-art production processes including quality assurance inspections....
The 2nd cycle in Engineering Materials, specialty in Materials for Aeronautics aims to respond to the needs of the labor market and has the goal to train professionals wi
The 2nd cycle in Engineering Materials, specialty in Materials for Aeronautics aims to respond to the needs of the labor market and has the goal to train professionals with skills and advanced knowledge in materials for aeronautics or related areas, essential to the exercise of engineering activities in a growing industry try in expansion in Portugal.
The Master has the goal to train students to show technical and professional leadership as well as the necessary adaptability in a society in constant change.
The industry needs specialists in Materials who can master and implement this knowledge in practical applications. In order to meet the goals set for this study, the cycle was elaborated the curricular plan in consultation with the industry, ensuring the interest of future employers, and faculty from other institutions of the Portuguese Higher Education....
The objectives of BiWEM are to provide students with a sound theoretical and practical specialized knowledge in the field of biomass and waste processing. Students in th
Master's Programs in Materials Science .
Biomass and Waste for Energy and Materials
France benefits from a long, proud tradition of scientific and technological research and innovation that underpins the nation’s achievements in fields such as bioenergy, sustainable development, climate change, waste management. In the French research landscape, the RAPSODEE Research centre of IMT Mines Albi (UMR CNRS 5302) is uniquely positioned to deliver leading-edge training in cleantech and circular economy. Boosted by the RAPSODEE Research centre, the master’s degree BiWEM is a multidisciplinary leading-edge training program that is specifically tailored to address future environmental and societal challenges in the fields of renewable energy and low-carbon economy....
Hochschule Kaiserslautern - University Of Applied Sciences
In the “Refinement of Polymer and Composite Products“ program, which is unique worldwide, you will systematically gain technical expertise and develop your personal compe
Master of Science "Refinement of Polymer and Composite Products"
In the “Refinement of Polymer and Composite Products“ program, which is unique worldwide, you will systematically gain technical expertise and develop your personal competencies. You will become fully qualified and well prepared to adjust to the various requirements you will encounter in your future career.
Lectures, seminars, internships, and excursions will provide you with a solid knowledge of technical processes, advanced sciences and also economic aspects. Some tasks can be solved by means of teamwork, cooperating together with your fellow students.
This Master program covers three semesters and can be commenced twice a year - in the winter semester and in the summer semester. In total, 90 credit points are to be collected. In addition to the 210 credit points attained from a seven-semester Bachelor degree program, 300 points can be achieved in total, which, in turn, qualifies a Master study course graduate for Ph.D. programs....
Graduates from this program have good knowledge of general natural science disciplines and especially good foundations of basic analytical and testing methods. This knowl
Master in Textile Engineering, Nonwoven, and Nanomaterials
Graduates from this program have good knowledge of general natural science disciplines and especially good foundations of basic analytical and testing methods. This knowledge enables them to sample new nonwoven and nanomaterials for a wide range of applications. The considerable freedom regarding the choice of lectures ensures big flexibility of the graduate and his/her capability to be employed not only in various areas of textile, automotive and building industries, but also in other activities where nonwoven and nanomaterials are used.
Since the TUL programs are recognized by the European Federation of National Engineering Associations FEANI, alumni are eligible for the EUR ING title....
As competition between companies is getting tougher as the number of products on the market increases, many are realising the importance of product development and materi
As competition between companies is getting tougher as the number of products on the market increases, many are realising the importance of product development and material knowledge as a competitive means. This programme covers the entire product development process, from conceptual engineering design to materials and manufacturing processes.
Making complex things simpler
The steady increase in the use of computer support makes possible new methods, which are parallel to the entire product development process. With the help of advanced computer tools in design and construction, real and virtual prototypes can be produced much faster, and the time needed for development can be shortened. In addition, a product can be studied and tested at an early stage of product development for its design, usability, durability, safety and producibility. Important aspects of work with the development of components and products include the analysis of function and performance, the choice of materials and the methods of production. This programme gives an understanding of the theory behind and the practical use of the computer-based tools needed for these tasks....
The Master's degree in Materials Science aims to provide a firm grounding in the chemical, physical and technological behavior of a vast range of materials with emphasis
APPLICATION at UniTo for a.y. 2019-2020 is OPEN until April 14th 2019. Apply at https://apply.unito.it
The Master's degree in Materials Science aims to provide a firm grounding in the chemical, physical and technological behavior of a vast range of materials with emphasis on modern advances in the field. Students are trained to understand the properties of materials in current use and encouraged to develop original ideas for creating new materials which satisfy the requirements of society and world markets (i.e. cheap, safe, recyclable and with minimum negative impact on the environment).
The course delivers advanced and integrated theoretical and practical training across the following interdisciplinary areas: chemistry and physics of solids, materials production, manufacturing, and testing, with special attention to the characterization and modeling of material structures and properties. All lectures and examinations for the Master's degree are conducted in English....
As an EIT-Labelled program, the AMIR Master integrates high-level training on entrepreneurship and innovation into its curriculum, giving students the skills that they ne
Materials are the building blocks of the modern global economy and are instrumental for the transition to a green, circular economy which emits less CO2. Twenty-seven of these materials have been defined by the EU as critical, meaning that they combine high importance to the EU economy with a high risk associated with their supply. Accessing the known primary raw material sources has become more challenging, while the amounts of industrial waste and end-of-life-products are rapidly increasing. These waste streams contain secondary raw materials, many of which are critical and can be recovered, diversifying supply and contributing to meeting increasing materials demands.
Within the AMASE Master, you do not only gain valuable knowledge in Materials Science and Engineering, but you also learn two of the four most widespread European languag
Within the AMASE Master, you do not only gain valuable knowledge in Materials Science and Engineering, but you also learn two of the four most widespread European languages.
You study with local students and get to know the culture of your host countries, increasing your later job opportunities.
In 2005, EEIGM, with its institutional partners, created a two-year multinational Master in Advanced Materials Science and Engineering
Students carry out the first two semesters in a partner university of their choice; the third semester is spent in one of the other universities of the consortium. The fourth semester consists of a research project in a laboratory of one of the two universities where the student has studied. Students receive a double Master’s degree from the two universities concerned....
The Master 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 materi
The Master of Science in Mechanics of Materials and Structures (MMS) is an official Master’s degree of the European Higher Education Area. The master MMS is aimed at students who wish to develop their knowledge and skills regarding the mechanical behaviour of materials and structures.
The MMS Masters provides the student with the necessary skills to atake up leading roles in analysis, design, research, and development of structures with applicability in a variety of sectors (aerospace, building, race sport, marine, sports goods, civil, mechanical or wind turbine engineering). The MMS master’s classes are performed by teachers with high international recognition in scientific research and technology transfer to the industry....
IMACS is an integrated Master of Science designed by 4 institutions with a wide range of leadership in clay science :
the University of Poitiers (UP) in France (co-ordinator),
the University of Aveiro (UA) in Portugal,
the Technical University of Crete (TUC) (Chania) in Greece,
the Federal University of Rio Grande do Sul (UFRGS) (Porto Alegre) in Brazil.
Why clay minerals?
Interest in clays results from their common availability, and their unique physical and chemical properties. No other minerals currently attract so great an interest.
In addition to their conventional ancient use as bricks, tiles, ceramics and for paper coating and waste management more recently, clays have found many novel applications. Clay minerals have provided a boost in technology because they are inexpensive nanomaterials, and as such, they have a huge potential for the synthesis of polymer nanocomposites with superior mechanical and thermal properties. The optimisation of adsorption, colloidal and rheological properties also opens prospects of using clay minerals for medical uses, pollution control, and environmental protection. Clay minerals play a role in economic geology (both as an important mineral resource and in energy resource exploration) and soil management. Clays also have many negative effects in geotechnical engineering, manifested in the form of landslides, mudflows, and the deterioration of clay-based construction materials....
France, Poitiers, Portugal, Aveiro, Brazil, Porto Alegre, Greece, Heraklion+ 4 More