Tailoring nanocomposite resins for advanced high resolution SLA 3D printing

Institute

Lehrstuhl für Thermodynamik (TUM-ED)

Type

Master's Thesis /

Content

 

Description

We are looking for a motivated Master’s student to work on the development of nanoparticle-reinforced polymer resins for high-resolution SLA/DLP 3D printing. The project focuses on carbon- and ceramic-filled systems for high-temperature applications in aerospace, electronics, and biomedicine.

Key tasks include stabilizing nano-suspensions, optimizing photopolymerization and rheology, and evaluating print performance using state-of-the-art equipment.

This thesis offers hands-on experience at the interface of polymer chemistry and advanced manufacturing, with the opportunity to develop next-generation functional materials

Requirements

• Interest in experimenting with additive manufacturing, background in material science and polymer chemistry
• familiarity with materials characterization tools

Possible start

immediately

Contact

Dr.-Ing. Muhammad Amjad
Room: MW0726
Phone: 089/289 16090
m.amjadtum.de