Stress-Based Lattice Structure Design for a Motorbike Application

F1000Res. 2023 Nov 29:11:1162. doi: 10.12688/f1000research.125184.2. eCollection 2022.

Abstract

Background: The "drive by wire" mechanism for managing the throttle is not applied to every modern motorcycle, but it is often managed through a steel wire. Here, there is a cam on the throttle control. Its shape allows the throttle opening to be faster or slower and its angle of rotation, required for full opening, to be greater or less. The maximum angle a rider's wrist can withstand depends on numerous musculoskeletal mobility factors, often limited by falls or surgery.

Methods: Using a Progrip knob with interchangeable cams allows the customization of a special cam profile, to ensure the best engine response to throttle rotation and ergonomics for the rider. The use of FEA software and lattice structures, allows to realize a lightweight and efficient design, targeted for fabrication with additive manufacturing technologies.

Results: The cam was manufactured by exploiting MSLA technology. Finally, a dimensional inspection procedure was performed before assembly. The main result is to have obtained a lighter and cheaper component than the original.

Conclusions: This study has allowed the design of a mechanical component consisting of innovative shape, light weight, and ergonomics. Furthermore, it demonstrates the effectiveness in the use of lattice structures to enable weight optimization of a component while minimizing the increase in its compliance.

Keywords: CAD/CAM; Design for additive manufacturing; MSLA; Shape optimization; Stereolithography tooling; lattice structure; nTopology; water washable resin.

MeSH terms

  • Commerce
  • Motorcycles*
  • Off-Road Motor Vehicles*
  • Software
  • Technology

Grants and funding

The author(s) declared that no grants were involved in supporting this work.