We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Design and manufacture of a shape-adaptive full-scale composite hydrofoil using automated fibre placement.
- Authors
Maung, Phyo Thu; Prusty, B. Gangadhara; Oromiehie, Ebrahim; Phillips, Andrew W.; St John, Nigel A.
- Abstract
Robotic manufacturing using automated fibre placement (AFP) provides the foundation for efficient, low labour intensive, high accuracy and repeatable composite manufacturing. This paper presents a novel manufacturing process used to build a full-scale shape-adaptive composite hydrofoil using AFP. The outer layers of the hydrofoil were made up of carbon-fibre/epoxy plies laid up by AFP. The inner core of the hydrofoil was made from an E-glass/epoxy laminate, which was used as a rotatable "core-wrap" mandrel to place the carbon plies on. This type of core-wrapping manufacturing process allowed the consolidation of continuous carbon fibres around the leading and trailing edges and minimised the risk of premature delamination failure. Fibre orientations of the AFP-laid carbon plies were optimised using a genetic algorithm for a shape-adaptive response, and the manufacturing process from the layup to the curing is presented. The manufacturing downtime, dimensional variation and AFP-inherent imperfections and underlying reasons for their occurrence were discussed for future improvement. It was found that the manufactured hydrofoil has a lower laminate thickness than the expected profile due to not using female moulds during the cure process. About half of the AFP operation time was spent on several downtimes such as ply inspection and layup rework. Intrinsic tow defects such as tow upfolding and wrinkling mostly occurred around the narrow-curvature trailing edge and contributed largely to layup rework time.
- Subjects
HYDROFOILS; LAMINATED materials; WRINKLE patterns; FIBERS; MANUFACTURING processes; GENETIC algorithms
- Publication
International Journal of Advanced Manufacturing Technology, 2022, Vol 123, Issue 11/12, p4093
- ISSN
0268-3768
- Publication type
Article
- DOI
10.1007/s00170-022-10527-2