Development of 3D Printed Integrating sensors with ETPU 95-250 Carbon Black, bending / force / resistance / Binary Push-button / vibration sensors.

This Master Thesis, to develop 3D Printed Integrating sensors, covers both FDM printing using the conductive and flexible filament ETPU 95-250 Carbon Black and also the metal powder proprietary binder-jetting AM technology developed by Höganäs AB. Magalie Darnis has made a very deep and interesting study that will help you understand more regarding sensors manufactured using additive manufacturing.

Download: “Integrating sensors in components using additive manufacturing” Master Thesis by Magalie Darnis, Hochschule Esslingen – University of Applied Sciences, work done in Höganäs, Sweden at/in cooperation with Höganäs AB and DIGITAL METAL® A HÖGANÄS GROUP COMPANY

Be your own flexible filament "rubber" 3D printing professional...

3D Printed ETPU Integrating bending force resistance Binary Push-button vibration sensors

Development of 3D Printed Integrating sensors with ETPU 95-250 Carbon Black, bending / force / resistance / Binary Push-button / vibration sensors.

Download: “Integrating sensors in components using additive manufacturing” Master Thesis by Magalie Darnis, Hochschule Esslingen – University of Applied Sciences, work done in Höganäs, Sweden at/in cooperation with Höganäs AB and DIGITAL METAL® A HÖGANÄS GROUP COMPANY