Jörg Dittus scite author profile

Neue additive Fertigungsverfahren ermöglichen die individualisierte Herstellung von endlosfaserverstärkten Kunststoffen (eFVK) mit hohen mechanischen Steifigkeiten und Festigkeiten. Um Bauteile belastungsspezifisch auslegen zu können, müssen neue Methoden zur belastungsgerechten Integration der Verstärkungsfasern unter Berücksichtigung von Prozessrandbedingungen entwickelt werden. Am wbk Institut für Produktionstechnik des Karlsruher Instituts für Technologie (KIT) wird ein innovativer Ansatz entwickelt, der Verstärkungsfasern spannungs- und fertigungsgerecht in additiv gefertigte Bauteile integriert.   New additive manufacturing processes enable the individualized production of continuous fiber reinforced plastics (eFRP) with high mechanical stiffness and strength. To be able to design components in a load-specific manner, new methods for the load-compliant integration of reinforcing fibers must be developed under consideration of the process boundary conditions. An approach developed at the Institute of Production Science (wbk) of the Karlsruhe Institute of Technology (KIT) integrates reinforcing fibers into a component while considering local stresses.

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Die neue Vordersitzstruktur des Panamera

Dittus¹

2017

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Jörg Dittus

Load-dependent path planning method for 3D printing of continuous fiber reinforced plastics

Hybrid material extrusion 3D printing to strengthen interlayer adhesion through hot rolling

Improvement of the adhesion in functional NiTi wire/polymer composites made by additive manufacturing

Lastgerechte Endlosfaser- verstärkungen im 3D-Druck/Load-compliant continuous fiber reinforcements in 3D-printing

Die neue Vordersitzstruktur des Panamera

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