Objectives: The Master 1 in Mechanics is a training course which allows the student to acquire the skills necessary for modeling physical and technological phenomena linked to mechanics.
This master's degree prepares you for careers in engineering and research, both in industry and in the laboratory. With this master's degree, the student acquires a broad spectrum of knowledge and skills in both solid mechanics and fluid mechanics while specializing, according to their professional project, in one of the three choices of sector of the master 2 :
• Fluid mechanics R&D aims to acquire and master advanced concepts in fluid mechanics, theoretical and experimental approaches, as well as numerical modeling and simulation.
• Materials mechanics R&D aims to acquire and master advanced concepts in solid mechanics, theoretical and experimental approaches, as well as numerical modeling and simulation.
• Digital Simulation in Mechanical Engineering aims to acquire and master advanced digital simulation in both solid mechanics and fluid mechanics.
This master benefits from co-accreditation with Centrale Lille and the École Normale Supérieure d’Arts et Métiers ParisTech in Lille.
Specificities :
• The vast and very varied field of mechanics finds its applications in many industries (transport, energy, meteorology, nuclear, etc.).
• The master's degree in mechanics provides training in both solid mechanics and fluid mechanics while allowing students to specialize in one of the three fields of their choice.
• The link with the industrial world is strengthened through interventions in teaching modules.
• Some courses are taught in English in order to promote international openness and professional integration. Thus, the training acquired provides a wide opening for the job market and facilitates professional integration, which is today the strength and reputation of this master's degree.
Degree Level (EU) : 7 - (EQC level or equivalent)
Acquired skills during the training : • Model, simulate and experiment with the complex behavior of solids and fluids. They are therefore able to propose solutions adapted to industrial specifications and to validate them through the comparison between models, digital simulations and experiments. They are also capable of optimizing a mechanical system for a given objective function.
• Deal with a problem independently by demonstrating initiative, adaptability and originality thanks to the role-playing activities implemented throughout the course.
• Communicate in a concise and appropriate manner on the results of a project, both orally and in writing.
• Team working.
Dedicated web site: https://www.univ-lille.fr/formations/fr-00002063