Master's Degree in Technology in Troyes in France

See Masters Programs in Technology 2017 in Troyes in France

Technology

A masters is earned after students complete an undergraduate degree program. To obtain a masters, you usually need to complete 12 to 18 college courses that often involve completing comprehensive tests and/or a thesis.

One of the greatest aspects of technology is that when it is embedded in machines and devices, most of the time the individual operating the machine or device does not need to understand the specifics of how the technology works. For example, someone using a computer does not need to understand the mechanics of the hard drive to benefit from using it.

France is currently among the 20 best performing countries in terms of the economy due to their excellent results-oriented higher education learning. Most of the courses at universities are offered in the French language. France has 60 public and 100 private universities.

Troyes has been around since the Roman era. It is a town in the Aube department in north-central France. It is home to the University of Technology of Troyes.

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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). [+]

Masters in Technology in Troyes in France. 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. [+]

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 [-]