Studying friction while playing the violin: Exploring the stick-slip phenomenon
Abstract:
Controlling the stick-slip friction phenomenon is of major importance for many familiar situations. This effect originates from the periodic rupture of junctions created between two rubbing surfaces due to the increasing shear stress at the interface. It is ultimately responsible for the behavior of many braking systems, earthquakes, and unpleasant squeaky sounds caused by the scratching of two surfaces. In the case of a musical bow-stringed instrument, stick-slip is controlled in order to provide well-tuned notes at different intensities. A trained ear is able to distinguish slight sound variations caused by small friction differences. Hence, a violin can be regarded as a perfect benchmark to explore the stick-slip effect at the mesoscale. Two violin bow hairs were studied, a natural horse tail used in a professional philharmonic orchestra, and a synthetic one used with a violin for beginners. Atomic force microscopy characterization revealed clear differences when comparing the surfaces of both bow hairs, suggesting that a structure having peaks and a roughness similar to that of the string to which both bow hairs rubbed permits a better control of the stick-slip phenomenon.
Año de publicación:
2017
Keywords:
- atomic force microscopy
- Friction
- Violín
- Stick-slip
- Bow hair
- Tribology
Fuente:
Tipo de documento:
Article
Estado:
Acceso abierto
Áreas de conocimiento:
Áreas temáticas:
- Instrumentos y conjuntos instrumentales
- Física aplicada