Public Projects of Research Group "Processing Technologies"

Ongoing Projects

• COMBO3D – Composite Mould Tool Based on 3D Printing

• ECHTZEIT – Development of a high-precision robot system for automated optical inspections in AFP manufacturing systems

• EDKiM – Development of a print head and its kinematics for medical devices

• EMOTION – Enhanced Mould for Thermoplastic Fuselage in and out of Autoclave Consolidation
• EntEnBau – Development of a continous fiber coextrusion process with thermoplastic and thermoset matrix with actively controlled conditioning of the build space
• ExtRa-hiPer – Large Scale Extrusion and Robot Based 3D Printing with Software Solution for High Throughput Rates with High Performance Materials and Continuous Reinforcement
• FasSAd – Fiber-reinforced Saltcores for Aluminum Die Casting

• FUCHS – Flexible double diaphragm forming process with modular composite heating plate and self-cooling membrane

• InLineCon – Grundlagenforschung zur Klärung der Struktureigenschaftsbeziehungen von duromeren Faserverbundwerkstoffen, die während der Tape-Ablage direkt (In-Line) konsolidiert werden und den daraus entstehenden Implikationen für die automatisierte Ablage
• MEX-DES – Additive Manufacturing by Materialextrusion with Directed Energy Substrate Preconditioning

• MuMaCoMo – Intrinsic Net-shape Multi-Material Wet Compression Molding for Joining Composite and Metal Structures

• OptiMal – Optimized production chain and methods of integral stiffening for high-profile rims
• Polymers4Hydrogen – Designed Polymers and their Composites for High Pressure Environments
• REUSELAGE – Development of a process for manufacturing pressed thermoplastic CFRP components from tape offcuts with subsequent in-situ consolidation of TP-AFP structures

• SKR-FVK – Increasing Cost Efficiency and Robustness in the Automated Production of Fiber Reinforced Plastic Parts

 

Finished Projects

• COPRAS – Composite Parts for Rocket Applications with Integrated Sensors

• DEfcodoor – Development of an Ecologically Friendly Final Consolidation Step Using Thermoplastic Fibre Placement for a Helicopter Door

• Disacop – Disassembly of eco-designed helicopter demonstrators

• DRAHT – Printing of fiber-reinforced high-performance thermoplastics to realize complex load transfer elements

• HIVOCOMP – Advanced Materials Enabling High-Volume Road Transport Applications of Lightweight Structural Composite Parts

• IMCOLOR – Injection Moulding with Continuous Local Reinforcements
• InFo – Integration of Thermoplastic Foils into the Manufacturing Process of Composite Parts
• INSCAPE – In situ manufactured carbon-thermoplast curved stiffened panel

• InSensoFlecht – Integrated Sensor System for Monitoring the Braiding Process

• ISP – Integrated System for Process Chain Data Acquisition

• LEEToRB – Lightweight, Energy-Efficient Tooling for the Manufacturing of Rotor Blades

• MAI Fo – Development of a Process Chain for the Production of Foiled Fiber Composite Structures
• MAI Plast – Development of Cost-Efficient Production Technologies for Automated Processing of Thermoplastic High Performance Composite Materials for Large-Scale Production Scenarios
• MAI Profil – Highly Loaded, Economical Hollow CFRP Profiles for the Automotive Large-Scale Production
• MAI Sandwich – Development of Thermoplastically Joinable Sandwich Structures under Consideration of a Varietal Pure and Recyclable Use of Materials
• MAI Tank – Development of an Efficient Manufacturing Technique for Innovative Pressure Vessels from Thermoplastic Composites for the Aviation Industry

• MATISSE – Shape-Adaptive Side Impact Beam from CFRP for Alternatively Powered Vehicles

• TELOS – Thermo-Electrically Optimised Aircraft Propulsion Systems