

Plaquette de la formation
- Langue du parcours :Anglais
- ECTS :120
- Volume horaire TPTDCICM
- Formation initialeFormation continue
- ApprentissageContrat de professionnalisation
- Stage : durée (en semaines):20
Objectifs du programme
Numerical modelling for industrial applications is a rapidly growing discipline, which brings together the power of computers and the biological, chemical and physical sciences. Computer based simulations and their related visualisations play a key role in industrial applications, environmental or biomechanical investigations.
This training aims to train graduates in engineering and science able to master the scientific approaches for numerical computations in industrial engineering, environmental tales and biomechanics. This program also wants to demonstrate how computational engineering is used effectively in solving real-world problems.
This training aims to train graduates in engineering and science able to master the scientific approaches for numerical computations in industrial engineering, environmental tales and biomechanics. This program also wants to demonstrate how computational engineering is used effectively in solving real-world problems.
Compétences à acquérir
In this program the student will lean:
- the knowledge of the basics of fluids mechanics and solid mechanical laws, mathematics and numerical modelling;
- to use discretisation methods for the equations governing physical processes (programming language and numerical techniques);
- to use simulation tools (commercial solvers, research codes or free software) in industry (Computational fluid dynamics, computational solid mechanics, computational biomechanics, computational chemical engineering, civil engineering);
- to visualise data and generate meshes around complex geometries;
- to develop numerical tools to understand physical phenomena and propose optimised solutions;
- to solve numerically any problems in the fields of fluids mechanics, solid mechanics, heat and mass transfer, biomechanics or civil engineering.
Aspect formation et recherche
- The training is performed by professors strongly related to research in Strasbourg's laboratories and many student ends-up in PhD program.
Stage et projet tutoré
- 20 semaines (minimum) - 26 semaines (= 6 mois) maximum.
Contact(s)
Yannick Hoarau
Modalités d'inscription
- Capacité d’accueil : 20 étudiants ;
- Modalités d’examen des candidatures : dossier ;
- Calendrier de la procédure d’admission : les candidatures ouvrent en avril ;
- Admission à travers la plateforme MonMaster (M1), Ecandidat (M2) ou par l’intermédiaire de CAMPUS France (selon les cas) ;
- L’intégralité des enseignements est en anglais.
Pré-requis recommandés
- Mention(s) de licence(s) conseillée(s) pour accéder au M1 :
- Sciences pour l'ingénieur ;
- Génie mécanique ;
- Physique.
- Autres pré-requis (disciplines, matières, enseignements, recommandés) :
- Mécanique des fluides ;
- Mécanique des structures ;
- Langage de programmation ;
- Anglais.
Poursuite d'étude
- PhD student.
Programme des enseignements
Mécanique numérique en ingénierie (MNI) - Computational engineering
- CMCITDTPTE
UE 1 - Semestre 1 - Project management and communication (Gestion de projet et communication) - 3 ECTS
UE 2 - Semestre 1 - Numerical resolution techniques for engineering (Techniques de résolution numérique pour l’Ingénierie) - 6 ECTS
UE 3 - Semestre 1 - Languages (Langues) - 3 ECTS
UE 4 - Semestre 1 - Mathematical methods for physics - 3 ECTS
UE 5 - Semestre 1 - Computational fluid dynamics, incompressible flows - 3 ECTS
UE 6 - Semestre 1 - Material modelling and simulations I: elasticity, visco-elasticity and creep - 3 ECTS
UE 7 - Semestre 1 - Modelling of mechanical systems - 3 ECTS
UE 8 - Semestre 1 - Constitutive laws for rheological fluids - 3 ECTS
UE 9 - Semestre 1 - Material modelling and simulations II: plasticity, visco-plasticity and damage - 3 ECTS
- CMCITDTPTE
UE 1 - Semestre 2 - Introduction of simulation of Multiphysics (Introduction à la simulation multiphysique) - 3 ECTS
UE 2 - Semestre 2 - Study and research work (Travail d’étude et de recherche) - 6 ECTS
UE 3 - Semestre 2 - Finite elements for mechanical and thermal systems - 3 ECTS
UE 4 - Semestre 2 - Computational fluid dynamics, compressible flows - 3 ECTS
UE 5 - Semestre 2 - Turbulence modelling - 3 ECTS
UE 6 - Semestre 2 - Parallelisation, big data, data processing - 3 ECTS
UE 7 - Semestre 2 - Composite materials and homogenization techniques - 3 ECTS
UE 8 - Semestre 2 - Measurement and identification - 3 ECTS
UE 9 - Semestre 2 - Computational methods for structural dynamics, shock and vibration - 3 ECTS
- CMCITDTPTE
UE 1 - Semestre 3 - Quality assurance (Assurance qualité) - 3 ECTS
UE 2 - Semestre 3 - Language (Langues) - 3 ECTS
UE 3 - Semestre 3 - Applied computational engineering for heat and mass transfer - 3 ECTS
UE 4 - Semestre 3 - Development and use of simulation tools for chemical engineering - 3 ECTS
UE 5 - Semestre 3 - Advanced use of computational solid mechanics codes, CSM project - 3 ECTS
UE 6 - Semestre 3 - Visualization and grid generation - 3 ECTS
UE 7 - Semestre 3 - Advanced use of computational fluid mechanics codes, CFD project - 3 ECTS
UE 8 - Semestre 3 - Advanced computation in bio-mechanics - 3 ECTS
UE 9 - Semestre 3 - Free software in CFD - 3 ECTS
UE 10 - Semestre 3 - Applied computational engineering for bio-mechanics - 3 ECTS
Documents PDF à télécharger
Contrôle des connaissances
Découvrez le double diplôme international
Mécanique numérique en ingénierie (Computer Engineering) avec :
L'Université de Tioumen (Russie)
L'Université de Aquila (Italie)