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Automation of DLP Printer with feedback system
This project mainly focuses on the incorporation of automation control in DLP Printer and manipulate particles using external energy incorporated within a feedback-loop system.
Keywords: bioprinting, automation, microparticles manipulation, 3D printing, control system
Digital Light Processing (DLP) and CLIP-based 3D printers are vastly utilized systems for printing 3D composite structures. This project will focus on fabricating composite structures with multiple materials and a feedback system that monitors fabrication. These structures will be manufactured with high precision, possessing micrometer and millimeter-scale features. The print will be carried out with fewer errors and lesser human efforts by incorporating automation in a multi-material dimension using a feedback loop and a novel multi-material concept. Additionally, this project will help you get quality print and act as a learning opportunity on additive manufacturing techniques, automation processes, and feedback loop implementation.
Digital Light Processing (DLP) and CLIP-based 3D printers are vastly utilized systems for printing 3D composite structures. This project will focus on fabricating composite structures with multiple materials and a feedback system that monitors fabrication. These structures will be manufactured with high precision, possessing micrometer and millimeter-scale features. The print will be carried out with fewer errors and lesser human efforts by incorporating automation in a multi-material dimension using a feedback loop and a novel multi-material concept. Additionally, this project will help you get quality print and act as a learning opportunity on additive manufacturing techniques, automation processes, and feedback loop implementation.
This project will include the following tasks:
1. Development of the multi-material novel dispensing system.
2. Manipulation of particles in real-time by use of sensors and actuators.
3. Ways to make the system more controlled and automated.
4. Demonstrate the use of feedback loop implementation in a DLP printer to optimize the process for composite applications.
Looking for highly motivated students who are willing to learn and develop during the project.
This project will include the following tasks:
1. Development of the multi-material novel dispensing system.
2. Manipulation of particles in real-time by use of sensors and actuators.
3. Ways to make the system more controlled and automated.
4. Demonstrate the use of feedback loop implementation in a DLP printer to optimize the process for composite applications.
Looking for highly motivated students who are willing to learn and develop during the project.
Please send your CV and transcript of records to Prajwal Agrawal: pprajwal@ethz.ch and Prof. Daniel Ahmed: dahmed@ethz.ch
Acoustic Robotics Systems Lab. Department of Mechanical and Process Engineering (D-MAVT). RSA G 324, Säumerstrasse 4, 8803 Rüschlikon, Switzerland.
Website: https://arsl.ethz.ch/
Please send your CV and transcript of records to Prajwal Agrawal: pprajwal@ethz.ch and Prof. Daniel Ahmed: dahmed@ethz.ch
Acoustic Robotics Systems Lab. Department of Mechanical and Process Engineering (D-MAVT). RSA G 324, Säumerstrasse 4, 8803 Rüschlikon, Switzerland.