USM Digital Commons - Thinking Matters Symposium: 3D Printing of Piezoelectric Materials and Devices
 

Document Type

Oral Presentation

Department

Engineering

Faculty Mentor

Dr. Mustafa Guvench

Keywords

3D Printing, piezoelectric, Engineering, resin

Abstract

The design goal of the project is to use a stock 3D printer to 3D print materials with piezoelectric properties by adding Barium Titanate nanoparticles to the UV resin. The result of the printed material will be a device that will produce a charge when subjected to vibrations or stress. These printed devices can be used as microphones and other vibration sensors in a variety of applications. This process will be achieved by modifying the 3D printer by changing the film in the resin vat of the printer with a conductive film. This will allow for applied voltage to create an electric field to align the nanoparticles, producing a manufactured piezoelectric structure. The current progress of the project has been developing a 3D model of the devices, modification of the off the shelf parts, and researching the most effective material ratios.

Myrtle_Polletta_Thinking_Matters_Poster.pdf (642 kB)
Poster for Thinking Matters

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3D Printing of Piezoelectric Materials and Devices

The design goal of the project is to use a stock 3D printer to 3D print materials with piezoelectric properties by adding Barium Titanate nanoparticles to the UV resin. The result of the printed material will be a device that will produce a charge when subjected to vibrations or stress. These printed devices can be used as microphones and other vibration sensors in a variety of applications. This process will be achieved by modifying the 3D printer by changing the film in the resin vat of the printer with a conductive film. This will allow for applied voltage to create an electric field to align the nanoparticles, producing a manufactured piezoelectric structure. The current progress of the project has been developing a 3D model of the devices, modification of the off the shelf parts, and researching the most effective material ratios.