Exploring Conductive PLA Filaments in 3D Printing for Electrical Components
Systems
High Level Description
Advancements in 3D printing technology have revolutionized manufacturing, enabling the rapid production of intricate and customized parts. While consumer-grade 3D printers are now commonplace, the exploration of 3D printing for electrical components remains limited. This project aims to investigate the use of conductive filaments, specifically conductive PLA, in 3D printing to create functional electrical components and sensors. Through design, fabrication, and testing, we seek to understand the capabilities and limitations of conductive materials in additive manufacturing, ultimately contributing to the development of 3D-printed electronics.
Project Description/Purpose
- Characterization of Conductive Filament: Determine the electrical and mechanical properties of conductive PLA filament through systematic testing.
- Design of Components: Utilize CAD software to design various electrical components and sensors suitable for 3D printing with conductive materials.
- Printing of Components: Fabricate the designed components using 3D printing technology, optimizing printing parameters for conductive filaments.
- Testing and Validation: Rigorously test the printed components to assess their performance, reliability, and potential applications.
- Iteration and Improvement: Refine designs and printing processes based on testing results to enhance component functionality.
The project focuses on exploring the properties and applications of conductive filaments in 3D printing for the creation of functional electrical components. The key objectives include:
Who are we looking for?
- An interest in additive manufacturing and 3D-printed electronics.
- Motivation to engage in hands-on experimental work, including design, fabrication, and testing.
- Eagerness to contribute to research that advances the understanding of conductive materials in 3D printing.
We are seeking a master's student with a background in Electrical Engineering, Engineering Physics or related fields to join our project. While prior experience with CAD software, electrical sensors, and 3D printing technology is advantageous, it is not a strict requirement. The ideal candidate should have:
Purpose
The primary purpose of this project is to enhance our understanding of conductive filament properties and their application in creating electrical components through 3D printing. By developing comprehensive models and expanding the existing knowledge base, we aim to facilitate the future development of innovative 3D-printed components. This deeper understanding may unlock new possibilities for incorporating electrical functionalities into 3D-printed objects, thereby contributing significant advancements to the field of additive manufacturing and its applications.
- Department
- Thesis
- Locations
- Stockholm
About Knightec
Exploring Conductive PLA Filaments in 3D Printing for Electrical Components
Systems
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