The efficiency and friction of plastic cylindrical gears Part 2: Influence of tooth geometry

Douglas Walton; Andrew Cropper; David Weale; P Klein Meuleman

doi:10.1243/1350650021543924

The efficiency and friction of plastic cylindrical gears Part 2: Influence of tooth geometry

Douglas Walton, Andrew Cropper, David Weale, P Klein Meuleman

Mechanical Engineering

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20 Citations (Scopus)

Abstract

In Part I the influences of materials and material combinations on the efficiency of plastic gears were investigated. In this paper, the effect of changes to plastic gear tooth geometry is investigated. Using a gear tooth form of standard proportions as the benchmark gear, gears were moulded to a number of different specifications. These changes in geometry included speed ratio, module, pressure angle, addendum, integer contact ratios and tip relief. Sensitivity to centre distance variations was investigated on the benchmark geometry. A helical gear was also tested for comparison with a spur gear of comparable specification. Using measured efficiencies, coefficients of friction were determined for a number of the gear geometries examined.

Original language	English
Pages (from-to)	93-103
Number of pages	11
Journal	Institution of Mechanical Engineers. Proceedings. Part J: Journal of Engineering Tribology
Volume	216
DOIs	https://doi.org/10.1243/1350650021543924
Publication status	Published - 1 Jan 2002

Keywords

coefficients of friction
spur gears
recess action
module
pressure angle
polymer composites
helical gears
efficiency
tip relief
gears

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10.1243/1350650021543924

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abstract = "In Part I the influences of materials and material combinations on the efficiency of plastic gears were investigated. In this paper, the effect of changes to plastic gear tooth geometry is investigated. Using a gear tooth form of standard proportions as the benchmark gear, gears were moulded to a number of different specifications. These changes in geometry included speed ratio, module, pressure angle, addendum, integer contact ratios and tip relief. Sensitivity to centre distance variations was investigated on the benchmark geometry. A helical gear was also tested for comparison with a spur gear of comparable specification. Using measured efficiencies, coefficients of friction were determined for a number of the gear geometries examined.",

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AB - In Part I the influences of materials and material combinations on the efficiency of plastic gears were investigated. In this paper, the effect of changes to plastic gear tooth geometry is investigated. Using a gear tooth form of standard proportions as the benchmark gear, gears were moulded to a number of different specifications. These changes in geometry included speed ratio, module, pressure angle, addendum, integer contact ratios and tip relief. Sensitivity to centre distance variations was investigated on the benchmark geometry. A helical gear was also tested for comparison with a spur gear of comparable specification. Using measured efficiencies, coefficients of friction were determined for a number of the gear geometries examined.

KW - coefficients of friction

KW - spur gears

KW - recess action

KW - module

KW - pressure angle

KW - polymer composites

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KW - efficiency

KW - tip relief

KW - gears

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JF - Institution of Mechanical Engineers. Proceedings. Part J: Journal of Engineering Tribology

ER -

The efficiency and friction of plastic cylindrical gears Part 2: Influence of tooth geometry

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Keywords

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