Pagora rubrique Formation 2022

Project to design a functionalised object - WFME3041

  • Number of hours

    • Lectures 13.5
    • Projects -
    • Tutorials -
    • Internship -
    • Laboratory works 30.0

    ECTS

    ECTS 7.0

Goal(s)

To design, manufacture and test a proof of concept by applying knowledge acquired within units UE1 (materials and processes), UE2 (functionalities) & UE3 (sustainable innovation).

Responsible(s)

Nadege REVERDY-BRUAS

Content(s)

Part 1 – Bibliographic study (TW Business Intelligence & Innovation management)

Part 2 – Design of the circuit in conventional electronic & Printing form design for screen-printing

Part 3 – Manufacturing of the circuit by printing process (screen-printing)

Part 4 – Design of the circuit with the objective of direct printing (robotic)

Prerequisites

Materials (cellulosic, polymeric)
Printing processes (screen-printing, 3D printing, others)
Robotic
Printed electronic fundamentals

Test

Evaluation : Description of evaluation conditions in the ‘Evaluation’ field

  • Final Proof Of Concept (30%)
  • Final Report (40%)
  • Oral defense (30%)

The exam is given in english only

Calendar

The course exists in the following branches:

Additional Information

Course ID : WFME3041
Course language(s): FR

You can find this course among all other courses.

Environmental security

Individual safety equipments (labcoat, glasses, gloves, …)

Bibliography

  • Managing innovation, Tidd, J. & Bessant J.R., Wiley, 2025, 8th edition
  • Business model generation, Osterwaldeur, A. & Pigneur, Y., Pearson, 2011
  • OSTFELD, Aminy E., DECKMAN, Igal, GAIKWAD, Abhinav M., et al. Screen printed passive components for flexible power electronics. Scientific reports, 2015, vol. 5, no 1, p. 15959
  • RUBIO, Juan C. et BOLDUC, Martin. Screen Printing for Energy Storage and Functional Electronics: A Review. 2025
  • TRICOT, F., VENET, C., BENEVENTI, D., CURTIL, D., CHAUSSY, D., VUONG, T. P., BROQUIN J.-E. & REVERDY-BRUAS, N. (2018). Fabrication of 3D conductive circuits: print quality evaluation of a direct ink writing process. RSC advances, 8(46), 26036-26046.
  • BENEVENTI, Davide, GRAZIANO, Andrea, FURIA, Gioia, et al. Optimization of trajectory processing algorithms to print 3D circuit boards using piezo ink jet and 6-axis robots. Journal of Manufacturing Processes, 2023, vol. 101, p. 1497-1507
  • FURIA, Gioia, TRICOT, Fanny, CHAUSSY, Didier, et al. Use of a 6-axis robot and ink piezo-jetting to print conductive paths on 3D objects. Printed circuit geometry, and conductivity predictive model. CIRP Journal of Manufacturing Science and Technology, 2021, vol. 35, p. 855-863