Prepreg Complex Mold Layup. Figure 2 from Novel Approach toward the Forming Process of CFRP Reinforcement with a Hot Stamped [9] investigated the use of tracking and projection technologies to assist human operators during layup This is the first time an automated process has been capable of forming sheets of woven prepreg onto truly complex moulds while maintaining a high level of fibre alignment
a Prepreg material b Layup on the mold Download Scientific Diagram from www.researchgate.net
Automatic planning strategy for robotic lay-up of prepregs on a complex-shaped mold GAMBARDELLA Antonio, ESPERTO Vitantonio, CARLONE Pierpaolo Abstract This work represents a condensed version of the second half of the thesis by the author entitled 'The evolution and automation of sheet prepreg layup'
a Prepreg material b Layup on the mold Download Scientific Diagram
The curvatures - encountered during layup deform the prepreg based. Carbon fiber is a widely used raw material for the production of composites [9] investigated the use of tracking and projection technologies to assist human operators during layup
Figure 1 from PREPREG LAYUP TECHNOLOGY FOR MANUFACTURING OF LATTICE STRUCTURE FUSELAGE SECTIONS. For low-volume production and complex parts, a hand layup process is used to laminate plies of carbon fiber prepreg (a resin-infused fiber bed) To keep plies aligned during layup on complex geometries, the layup roller diameter was decreased to 50 mm in order to improve dexterity
Figure 2 from Novel Approach toward the Forming Process of CFRP Reinforcement with a Hot Stamped. The eventual transition from traditional hand layup to robotic layup represents a. The simulation yields different results for different starting points, mirroring the real process where the first point of contact influences the entire layup outcome