Master's Degree in Materials Science in Aube in France

Search Masters Programs in Materials Science 2017 in Aube in France

Materials Science

The benefits of a Masters extend beyond improving your earning potential. They can provide you with personal and professional skills to accelerate your development. They are also an opportunity to differentiate yourself from your peers, many of whom will have similar A-level and undergraduate qualifications.

By focusing on research and development, materials science is able to provide new materials for use in industries. Materials science relies on several scientific and engineering departments to work together to problem-solve for the future.

France offers a superb higher education system to not only its citizens but also foreigners. The country's dynamic culture attracts foreign students and those interested in pursuing international courses. France has a tradition of scientific and technological innovation. This ensures that scholars fully utilize their creativity.

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Engineer "materials And Mechanical"

University of Technology Troyes - UTT
Campus Full time 4 years September 2017 France Troyes

This training in three years prepares the engineer to identify new materials and be able to implement manufacturing processes tailored to the company's production system. [+]

Masters in Materials Science in Aube in France. Dual training (apprenticeship or continuing education) This training in three years prepares the engineer to identify new materials and be able to implement manufacturing processes tailored to the company's production system. The engineer MM (former Pmom) meets this requirement with its versatility; it is close to field teams, able to provide innovative solutions tailored to the needs of its business customers and its technological and industrial constraints. The training leads to a diploma "UTT Engineer Materials and Mechanics", approved on 14/12/2010 by the Engineering Titles Commission. It is delivered in partnership with the CFA for higher education in Champagne-Ardenne. Frédéric SANCHETTE, Director of antenna UTT Nogent and Training Manager MM "The installation of the UTT in the heart of Haute-Marne industrial basin is an ambitious and exciting challenge for all institutional actors and local industry . The welcome was reserved for teachers and first engineers-apprentices augurs a promising future of Nogent antenna UTT. We are very confident in the ability of our students to integrate the industry due to the combination of a recognized qualification and benefits of alternation: immersion in business and experience in the field. "Xavier DUPONT, student of the first class MM (former Pmom). Xavier Dupont was already used for a year as a technician in aeronautics when he discovered the WM formation (formerly Pmom). Today he is hired by the Safran Group. "The training that combines mechanics and materials was what I was looking for. The fact that a stay abroad is part of the curriculum Pmom also counted in my choice. I feel very well here. It is very user friendly. There is a good cohesion in our promotion. And the means at our disposal are great! The proximity of the teaching staff is another highlight, specificity. Contact with teachers is direct and permanent. Everything is done so that you feel good! " The industrial partnership Training is built in close connection with the Nogentech association, which groups the industrial enterprises Haute-Marne, the first French pole of implementing matériaux.http: //www.nogentech.org Apprentices can however work in companies throughout France where UTT has contacts because of its 500 graduate engineers per year. Jean-Loïc SQUARE, engineer, director of the High Technology Center of Champagne. "Department of strong industrial tradition, Haute-Marne welcomes the leading sectors of industries such as automotive, aerospace, energy and medical and internationally recognized leaders: Hachette & Driout, one of the steel mills modern in Europe, Ferry-Capitain, global specialist in very large rooms, Forges de Courcelles and his press 8000 tons and in the medical field: Marle, Aesculap, Greatbatch, Landanger ... This excellence motivated the General Council, the GIP52 and their institutional partners to create the Technology Center of Upper Champagne in Nogent, in partnership with UTT, CRITT-MDTS and Nogentech, local cluster of sixty companies, certified by DATAR. The UTT engineering apprenticeship and research UTT complement an ambitious system of economic development and support for technological innovation, thereby strengthening our competitive advantages in the global market. The strong involvement of local communities in Chaumont Nogent Langres and contributes to the reception of students and animation of a rich associative and cultural life. " Trades production engineer ; R & D engineer, engineering; methods engineer. Sectors Mechanical Industries Equipment for the Automobile, Aerospace, Rail Forges and Foundries Plastics Energy Facilities (Nuclear) Engineering Mechanics Materials and skills choose metallic or non-metallic materials having a specific need select, validate, and implement effectively adequate industrial processes define and implement testing and industrial drivers needed Use and master the tools of CFAO, industrial management and continuous improvement support innovation in interface between management and field teams Pedagogy training General lessons m Mainstream and strength of materials; manufacturing processes; tools and design methods; quality and industrial systems; management of projects, management and business management. Alternating periods Years 1 and 2: alternating rhythm of 15 days / 15 days: the antenna of Nogent (52) of the UTT in the Haute-Champagne technological pole The 5th semester: at UTT Troyes, integrated students The 6th semester takes place entirely in Business Inductive teaching and projects The apprentice must complete projects within their business, which will be evaluated by the company and by UTT: Semester 1: Discovery of the company and its environment; semesters 2 and 3: industrial project; semester 3-4: International Project: Preparation and industrial living abroad; 4 semester: research project and experimentation; 6 semester: final project study. Teaching 5th grade at UTT: credits choice Most UV branches "Mechanical Systems" and "Materials: technology and economy", are available to apprentices and trainees MM. For example : Technical purchasing and cost reduction; eco-design; product life cycle management and collaborative engineering; design of information systems. Also available are many UV of "Industrial Systems" branch, Technology and Humanities, foreign languages ​​(in addition to the mandatory English). [-]

Materials Technology And Economics

University of Technology Troyes - UTT
Campus Full time 5 - 7 years September 2017 France Troyes

The specialty '' Materials: Technology and Economics' trains engineers able to choose, buy, sell, improve, develop a comprehensive approach to the materials used in the industry, by integrating the constraints and realities related to technology, the economy, standards, regulations and respect the environment (recycling, eco-design, sustainable development). [+]

Definition The specialty '' Materials: Technology and Economics' trains engineers able to choose, buy, sell, improve, develop a comprehensive approach to the materials used in the industry, by integrating the constraints and realities related to technology, the economy, standards, regulations and respect the environment (recycling, eco-design, sustainable development). Teachings Basic scientific background (physics of matter, radiation-matter interaction, materials chemistry, metallic and nonmetallic materials, semiconductors, materials mechanics) Processes and technologies for materials Macroscopic and microscopic characterization Materials choice Environment and regulations (eco-design, clean technologies, recycling, standards ...) Trade of materials and purchasing techniques and cost reduction, material flows Shaping and surface processing of materials in the fields of metallurgy, plastics ... Channels Materials and Environmental Economics (HES) Technology and Trade of Materials and Components (TCMC) Transformation of Materials and Quality (TQM) Sectors Automotive Aerospace Thermal, Nuclear Electronics and optoelectronics general public (telecommunications, IT) Construction Chemistry Metallurgy, plastics Examples of internships Assistant Project Manager Photovoltaics Laboratory formulation of asphalt mixes high performance Audit of the "purchase" in the company Realization of a life cycle analysis on an automobile engine room Issue of recyclability of fines in construction Development of a High Strength Steel for the automotive industry Opportunities Project Manager Sustainable Buildings Head HEQ project Eco-design and life cycle analysis engineer Product Quality Manager Industrialisation Engineer Responsible purchasing raw materials Technical Sales Engineer Research & Development Engineer [-]

Materials Science and Technology

University of Technology Troyes - UTT
Campus Full time 5 - 7 years September 2017 France Troyes

80% of the production companies’ budget is spent for buying materials: steels, plastics, components… The sources for supply are very diversed and economic, technical and environmental problems are all linked together. Product design depends on the physical-chemical and mechanical properties of the materials. Simultaneously, product design depends as well on associated costs, standards and recycling. The Materials Science engineer is the multidisciplinary link between offices. He/she improves companies’ quality, reliability and productivity for better performance, sustainable development and costs management. [+]

Masters in Materials Science in Aube in France. To integrate the materials into the design processes and implement them with respect to environment and cost management. 80% of the production companies’ budget is spent for buying materials: steels, plastics, components… The sources for supply are very diversed and economic, technical and environmental problems are all linked together. Product design depends on the physical-chemical and mechanical properties of the materials. Simultaneously, product design depends as well on associated costs, standards and recycling. The Materials Science engineer is the multidisciplinary link between offices. He/she improves companies’ quality, reliability and productivity for better performance, sustainable development and costs management. Core courses: Knowledge of different kinds of materials: structure, physical-chemical properties, processing, processes Materials characteristics and choice, design, sensors Materials economics and flows Scientific tools for engineering Project management and social sciences Competences of the Materials Science engineer: To choose the adequate material for a specific industrial application To buy wisely this material depending on the market with a “eco-responsible” approach Follow and manage its processing To know the recycling regulations and methods To be able to encourage innovation policy Specializations (Filières): Materials economics and environment Environment and regulations (eco-design and sustainable development, clean technologies, recycling, standards…). This specialization trains engineers in eco-design. They control the materials lifecycle and acts on production effects on environment with regards to standards. Specific competences: Design and eco-design Recycling Environment management and quality regulations Technology and trade of materials and components Trade and purchase and costs reduction techniques. Beside having competences in technologies and economy, these engineers master the purchase and costs reduction techniques. Specific competences: Information and communication technology, e-business Materials trade Purchase techniques Transformation and quality of materials Broad knowledge in science and materials engineering oriented to metallurgy, plasturgy, structure and microstructure, advanced materials properties, surface treatments and sustainable development. Specific competences: Materials forming and transformation Processes and materials Manufacturing technologies Metallurgy, plasturgy Related laboratories: LNIO: Nanotechnologies and Optical Instrumentation Example of research activity: new hybrid nanomaterials for nanophotonics, prototype of miniaturized optical spectrometer [-]