Applied physics: transfers in all their forms!

Students have acquired a basic knowledge of the physical phenomena of transport, transfer and diffusion in the core curriculum. This module enables them to deepen their knowledge and skills in phenomena capable of modifying the functionality of a material, and therefore requiring it to be correctly characterized.
This module will be useful for students wishing to enter sectors of activity involving the improvement of transfer properties (mass and electrical) of materials and processes. The module develops skills in mechanical and electrical analysis research.
On completion of the module, students will have the skills to:

Model the mass transfer concepts of a real flow
Characterize the behavior and mechanical properties of a material (elasticity)
Define electronic components (transistors (polarization of a component), switches, logic gates)
Solve flow and heat transfer problems using digital simulation

Students will mainly acquire the supervised mastery of the skill "Choosing and implementing physical characterization methods for materials".
This module is of interest to students wishing to follow the 3A MPI4.0 specialization.

Core courses in solid/fluid mechanics and electricity/electronics

Part 1: Mass transfers
Solid mechanics: notions of elasticity and deformations (2 CM + 2TD) M. Azaiez
Fluid mechanics: real fluid flows (3CM + 2TD + 1TP + 8h project) (lectures and TD: C. Le Bot+M. Azaiez and + TP: J. Jansen)
This part is based on three concepts:

Conservation laws: understand the concept of mass balance and conservation
Newtonian fluid (rheology) and incompressible fluid: understand the characteristics of real fluids
Flow regimes and dimensionless numbers: characterize the different regimes


Part 2: Components and electrical transfers
Transistors: polarization of a component (2CM +1TD+1TP) V. Vigneras Vigneras
Switches (2CM+1TD+1TP) V. Vigneras
Logic gates (1CM ) V. Vigneras

Part 3: Modeling and numerical simulation
Fluid Mechanics simulation (2TP of 4h) C. Le Bot

Fluid Mechanics - course and corrected exercises. S. Amiroudine, JL. Battaglia. Ed. Dunod.