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Mechanical Engineering

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MECHANICAL ENGINEERING PRESENTATION

       

 

context

It is forecast that by 2020 industries will need to recruit 100,000 employees per annum, 40,000 of which are in the field of mechanics alone. Consequently, mechanical engineering as the largest employer in French industry will be a substantial source of employment needing talented engineers in many different fields.” (source: FIM)
Skilled engineers are needed in every sector: consumer goods, equipment, transport, etc. Mechanics is present in every industrial process and in high-tech product design.
This course with its two options instills the skills necessary for manufacturing processes, industrial process design and selecting the best materials.

3-year programme 

DESIGNDIMENSIONING ENGINEERING SCIENCES

TECHNICAL EXPERTISE (Option: Design & Production)

TECHNICAL SKILLS (Option: Materials)

BUSINESS AND COMMUNICATION
  • An eco-design approach
  • Principles of choice for materials
  • Projects
  • Optimising materials and processes
  • Mathematical and IT tools for mechanics
  • Rigid solid mechanics
  • Pliant solid mechanics and finite elements
  • Vibration
  • Automation
  • Thermodynamics and heat science
  • Fluid mechanics
  • Geometric parts testing
  • Production process design
  • Production and quality control management
  • Process and design of experiments statistics skills
  • Metals and metal alloy production, structure and properties
  • Metals and metal alloy characterisation/quality control/testing
  • Metals and metal alloy corrosion/durability/recycling
  • Organic polymer and glass composite production, structure, properties and shaping
  • Eco-compensation and innovative materials
  • The work environment, management and organisational skills
  • Communication skills
  • English

 

Professional skills

BEING A RESPONSIBLE ENGINEER

  • Respecting elementary rules for workspace harmony
  • Embracing company or establishment values
  • Developing rigorous thinking and intellectual honesty
  • Self-learning and keeping abreast of science and technology
  • Demonstrating independence, initiative and creativity
  • Acting eco-responsibly

STEERING PROJETS

  • Reporting, keeping informed
  • Defining resources (human, financial, timing, material, methods)
  • Making decisions as a responsible batch manager
  • Managing a project team
  • Managing batch interactions

DESIGNING MECHANICAL ENGINEERING SOLUTIONS

During the digital modelling design stage, a production process, setting up assembly or quality control, a testing protocol, material or treatment selection, etc.

  • Validating a solution respecting given specifications
  • Offering a solution respecting given
  • Developing enabling tools based on objective criteria for organising solutions
  • Developing specifications in accordance with the industrial environment constraints

iMPLEMENTING A MECHANICAL ENGINEERING SOLUTION

During the validation and optimisation stage of a product, a process, material, etc.

  • Selecting the means to implement the solution
  • Monitoring the solution’s progress
  • Ensure follow up and quality control of the solution

 

FIELDS & CAREERS

Fields

Automobile. Aeronautics & Space. Defence. Weapons. Energy. Transport & diverse Industrial sectors.

Careers

Design Engineer
Calculation Engineer
Research and Development Engineer
Manufacturing Engineer
Quality Control Engineer
Process Engineer

qualification

The course leads to the qualification of graduate engineer awarded by the University Gustave Eiffel, Marne-la-Vallée in partnership with Ingenieurs 2000 – Specialisation: Mechanics

Place of study

Esipe-UGE
Cité Descartes – Bât Copernic
5 boulevard Descartes
Champs sur Marne
77454 Marne-la-Vallée Cedex 2