3 parts :
– First on the modeling of a mechanical architecture using multiphysics simulation software: Making the model/real link, parameters, validation of the model and exploitation of the results
– A second on kinematic modeling of a complex system (kinematic diagram, hyperstatism, equivalent connections)
– A final part on design and sizing of mechanical systems. We will focus on actuators (cylinders and motors) and pivot connections.
– A project, carried out in small groups over the entire semester, will complete and reinforce knowledges acquired in previous parts.
– Disassembly of gearboxes and differentials during practical work sessions
