Design and manufacture of hybrid metal composite structures using functional tooling made by additive manufacturing

Abstract: This paper presents a novel manufacturing technique for complex-shaped, hybrid metal composite structures leveraging the design freedom of additive manufacturing (AM). The key novelty of this research is an approach for an autoclave-suitable and removable tooling, which consists of a 3D-printed functional shell and a structural filler material. In this process, a layup shell is produced with AM and filled with a temperature-resistant curing support to form a removable inner tooling. The functional shell has in… Show more

“…The following section deals with an approach to overcome these trade-offs. Several studies have dealt with the use of additive manufacturing (AM) in lightweight design and have shown its potentials (Türk et al, 2018(Türk et al, , 2019Kussmaul et al, 2019). From the load-dependent adaptation of a honeycomb core to new possibilities to implement internal reinforcing components, the areas of application have been investigated.…”

Factors Influencing the Decision of Conventional/Hybrid Lightweight Design Strategies and Their Effect on the Design Process

“…The following section deals with an approach to overcome these trade-offs. Several studies have dealt with the use of additive manufacturing (AM) in lightweight design and have shown its potentials (Türk et al, 2018(Türk et al, , 2019Kussmaul et al, 2019). From the load-dependent adaptation of a honeycomb core to new possibilities to implement internal reinforcing components, the areas of application have been investigated.…”

Factors Influencing the Decision of Conventional/Hybrid Lightweight Design Strategies and Their Effect on the Design Process

Additive Manufactured Break-Out Cores for Composite Production: A Case Study with Motorcycle Parts

Design, manufacturing and experimental validation of additive manufacturing cores for bearing seats in carbon fibre reinforced polymer structures