Title :
Commutation with metal fiber brushes
Author :
Kuhlmann-Wilsdorf, Doris ; Alley, Daniel
Author_Institution :
Dept. of Mater. Sci., Virginia Univ., Charlottesville, VA, USA
Abstract :
Two principal explanations are given for why metal fiber brushes could be unsuitable for commutation, thereby severely restricting their possible range of technological application. These are (1) high wear rates due to fiber breakage caused by mechanical chopping action of commutator bar edges, and (2) fast erosion at the trailing edges due to arcing, which also affects monolithic brushes, but to a lesser degree. Recent experiments with 50- mu m-diameter bare and silver-plated copper fiber brushes in a protective argon atmosphere, using simulated commutation and running them as working brushes in an electromotor, suggest that these problems may be overcome by the use of much thinner fibers than the >or=100- mu m-diameters that have been used in the past. No fiber breakage was observed, arcing was only moderately stronger than with carbon brushes, and the total dimension-less wear rate in the motor was only about twice that on a polished copper rotor under otherwise comparable conditions.<>
Keywords :
brushes; commutators; copper; fibres; wear; 50 micron; Ag plated Cu fibers; AgCu fibre; Ar atmosphere; Cu fibre; Cu rotor; commutation; commutator bar edges; electrical contacts; electromotor; experiments; fast erosion; fiber breakage; high wear rates; mechanical chopping action; metal fiber brushes; simulated commutation; thinner fibers; trailing edges due to arcing; wear rate; Atmosphere; Bars; Brushes; Commutation; Copper; Current density; Electrons; Optical fiber cables; Protection; Tunneling;
Conference_Titel :
Electrical Contacts, 1988., Proceedings of the Thirty Fourth Meeting of the IEEE Holm Conference on
Conference_Location :
San Francisco, CA, USA
DOI :
10.1109/HOLM.1988.16122
