Increased Reliability for the Manufacturing of Composite Pressure Vessels
Automated Winding of Preforms Directly from Roving
Improved crash characteristics of high-strength aluminum safety components
Thermoplastic Fiber Metal Laminates for Automated Production
Thio residue from thermal processing of cometary ices containing carbon disulfide and ammonia
"Inline inspection helps accelerate production by up to 50 %"
Rail Vehicle in CFRP-intensive Design
Developments for laser joining with high-quality seam surfaces
Additively Manufactured Winding Pins for Fiber Winding
Eddy current testing in CFRP production
Sustainable Use of Carbon Fibers through CFRP Recycling
Concept of an L7e micro car with high passive safety
Multi-functional Hybrid Material to Protect Rotor Blades
Improvement of Lightweight Design Quality through Interdisciplinary Cooperation
Deep-drawing and backmolding process for plastic-magnesium hybrids
Top-down design of tailored fiber-metal laminates
Function-orientated Production of FRP Components
Series-production Adhesive Process for Hybrid Components
Observations of the Li, Be, and B isotopes and constraints on cosmic-ray propagation
Large-series Production of Thermoplastic Door Module Carriers
Lightweight Materials in Tomorrow's Automotive Industry
Train Front Module in Aluminium-foam-sandwich Design
RTM Process Manufacturing of Spot-weldable CFRP-metal Components
Production of fiber composite structures by means of cooperating robots
Specific challenges in the application of fibre-metal laminates
Dry Machining of Multilayer Composite Materials in Aircraft Construction
Series Production of Fiber Composite Safety Components for the Automotive Industry
Titanium Welding Technology for Series Production
World Space Observatory-Ultraviolet: ISSIS, the imaging instrument
Lightweight and Safe Composite Battery Housings
Tool Technology for Lightweight Structures in 3-D Hybrid Designs
Influence on the microstructure of laser beam welds of high-strength steels
Carbon composite manufacturing in automotive volume production
Incombustible, Inorganic Fiber-reinforced Composites for Shipbuilding
Automated manufacture of fibre metal laminates to achieve high rate of production
Lightweight Design Using Local Heat Treatment of Cold Rolled Steels
Virtual Product Development Using Simulation Methods and AI
Production of UD-Tape Based Thermoplastic Composite Parts
"Lightweight design reduces product costs"
Technologies for the Automated Fiber Metal Laminates Production
Developments Toward Cost-effective CFRP
Epoxy resins reinforced with carbon nanotubes
Sandwich Structures Made of Thermoplastics and Recycled Carbon Fibers