A Solution of the Low-Speed Wheel Flutter Instability in Motorcycles
- 1 April 1976
- journal article
- Published by SAGE Publications in Journal of Mechanical Engineering Science
- Vol. 18 (2) , 57-65
- https://doi.org/10.1243/jmes_jour_1976_018_012_02
Abstract
Motorcycles are subject to two dynamic steering instabilities, a low-speed ‘flutter’ at 6–8 Hz. and a high-speed ‘weave’ at 2-3 Hz, both of which are increased by adding a tail load, or by decreasing the rider mass. This paper is concerned with the low-speed instability, and describes work which resulted in the elimination of this potentially dangerous phenomenon from a current large-capacity motorcycle. The cause was found to be twofold: a fundamental castor instability at the front wheel, coupled to a resonance in the upper section of the main frame. Recommendations on future frame design are made, and fundamental limitations of the ‘telescopic’ front fork are demonstrated.Keywords
This publication has 4 references indexed in Scilit:
- The Influence of Frame Flexibility on the Lateral Stability of MotorcyclesJournal of Mechanical Engineering Science, 1974
- Theory of Castor OscillationsJournal of Mechanical Engineering Science, 1973
- Experimental Investigation of the Parameters Affecting the Castor Stability of Road WheelsJournal of Mechanical Engineering Science, 1973
- The Stability and Control of MotorcyclesJournal of Mechanical Engineering Science, 1971