Génie industriel - Rubrique Formation - 2022

Engineering Design - 3GMAF322

  • Number of hours

    • Lectures 4.5
    • Projects 21.0
    • Tutorials 4.5
    • Internship -
    • Laboratory works 8.0
    • Written tests -


    ECTS 2.0


At the end of the module, the student:

  • is able to carry out the layout of a simple system by taking into account some constraints related to the production of parts (process and layout of operations).
  • has knowledge of the main technologies associated with the components
  • is able to propose simple constructive solutions and to propose a 3D representation of them.
  • can realise a static study to carry out an assessment of the mechanical actions involved in a simple system.


Guillaume THOMANN


9 hours of CTD + 2 practical sessions of 4 hours + Project of 21 hours + evaluation session


  • Work on simple models and resolution of simple cases of general mechanics in the case of indeformable solids. Know the elements of kinematic representation and static resolution.
  • combination of theoretical notions and exercises directed on elements of kinematics, statics (non-deformable solids), modeling of forces and limit conditions. Solving simple static systems.

TP (Practical work)

  • Application of mechanical systems analysis methods (mechanism analysis, modelling, kinematics and statics)
  • Experimentation and simulation for comparison and analysis of results in the two cases
  • (possibly) manipulation of CAD tools

Following the presentation of a precise problem: search for technological solutions in connection with the course of automatisms, to propose a modeling then a functional physical prototype.


Continuous assessment (CC): taking into account of the TP grade and the Project grade (The CC grade cannot be made up)

Assessment session 1 (E1) = written exam (0.5) + CC mark (0.5)
Assessment session 2 (E2) = written or oral exam

The jury can decide to move on to a higher year, subject to deferred validation of this EU. This decision remains exceptional; the jury is sovereign for each student.

In the context of this present course, the attendance of a student can have an impact on the calculation of the continuous assessment mark: for example a penalty per absence, which can go up to zero in the CC in the event of repeated absences...).


The course exists in the following branches:

  • Curriculum - Engineer IPID apprentice program - Semester 6
see the course schedule for 2023-2024

Additional Information

Course ID : 3GMAF322
Course language(s): FR

You can find this course among all other courses.


Techniques de l'ingénieur : http://www.techniques-ingenieur.fr, Traité mécanique, Traité Génie Industriel Conception et production, traité de matériaux
Introduction à la conception de produit, règles de conception
Dejean, P.-H. (2007). "Introduction à la conception de produit." Techniques de l'ingénieur Génie Industriel Conception et production (conception de produit ref AG2000).
Pahl and Beitz (2006). Engineering design 3rd Edition, Springer.
Ruef, B. (2005). "Intégrer la sécurité à la conception des produits de grande consommation." Techniques de l'ingénieur génie Industriel conception et production (méthodes/outils à la disposition des études AG2420).
liaisons, mécanismes et assemblages (1)
Agati, P. liaisons, mécanismes et assemblages. Cours, exercices et applications industrielles avec Méca 3D sous Solid Works et Méca master. M. Rosseto.
Esnault, F. (2000). Construction mécanique - Transmission de puissance. Principes Cours et exercices corrigés, Dunod.
Shigley, J. E. (1996). Standard handbook of machine design second edition, Mc Graw Hill.