A Customised Finn Dinghy Rudder for Optimal Olympic Performance
Paper in proceeding, 2020
Because of the long history of the Finn Dinghy sailing class, the difference between a gold medal and a mediocre result often comes down to personal mistakes of the sailor, or to who has the most optimised equipment. Regarding the latter, the Finn class rules permit certain design variations of the hull, mast, sail and rudder. In the current contribution, we describe a method for developing a customised rudder system aimed at optimal performance during the Tokyo 2020 Olympics. Based on hydrodynamic analysis of existing rudder designs, an improved rudder geometry was developed. Based on the concept geometry, the rudder and tiller were structurally designed and manufactured to achieve high stiffness and sufficient strength, while respecting the minimum mass requirements as specified by the rules.
CFD
finite element analysis
hydrodynamics
sailing
composite design
Author
Michael Stadler
Student at Chalmers
Brina Blinzler
Chalmers, Industrial and Materials Science, Material and Computational Mechanics
Adam Persson
SSPA Sweden AB
Christian Finnsgård
SSPA Sweden AB
Max Salminen
Swedish Sailing Federation,
Martin Fagerström
Chalmers, Industrial and Materials Science, Material and Computational Mechanics
Proceedings (MDPI)
2504-3900 (ISSN)
Vol. 49 1 105
The 13th Conference of the International Sports Engineering Association
Tokyo, Japan,
Tokyo, Japan,
Subject Categories
Production Engineering, Human Work Science and Ergonomics
Aerospace Engineering
Embedded Systems
Areas of Advance
Transport
Materials Science
DOI
10.3390/proceedings2020049105