Design and Optimization through Finite Element Analyses of a Recumbent Racing Bicycle for the World Human Powered Speed Challenge

Alessandro Basile

Design and Optimization through Finite Element Analyses of a Recumbent Racing Bicycle for the World Human Powered Speed Challenge.

Rel. Cristiana Delprete, Paolo Baldissera. Politecnico di Torino, Corso di laurea magistrale in Ingegneria Meccanica (Mechanical Engineering), 2023

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Abstract

The aim of this paper is to design a new recumbent bicycle frame for the World Human Powered Speed Challenge (WHPSC) through analyses and optimizations which are conducted with the finite element solver Optistruct. The goal of the WHPSC is to set a new land speed record for vehicles that rely on human power alone. The frame proposed in this thesis will be completely new and will have the objective of halving the mass and increasing the stiffness compared to a previous frame (Taurus by the Team Policumbent), yet using the same type of carbon fibers and the same fiber volume fraction of the composite material as in that prototype.

The new frame proposal has been designed to satisfy manufacturing constraints and also to be compatible with an already existing aerodynamic fairing, for which new attaching elements have been created