Measurement and prediction of the surface temperature in polymer gears and its relationship to gear wear

C. J. Hooke; K. Mao; D. Walton; A. R. Breeds; S. N. Kukureka

Measurement and prediction of the surface temperature in polymer gears and its relationship to gear wear

C. J. Hooke^*, K. Mao, D. Walton, A. R. Breeds, S. N. Kukureka

^*Corresponding author for this work

Research output: Contribution to journal › Conference article › peer-review

3 Citations (Scopus)

Abstract

A design of a four square gear test rig that allows the wear of polymer and composite gears to be monitored continuously during operation is described. The wear behavior of three typical gear materials is examined and it is shown that the wear characteristics differ greatly. For Acetal there is a sharp rise in wear as the transmitted torque is increased, effectively limiting the torque that can be transmitted by an Acetal gear pair. This wear transition is shown to be associated with the maximum surface temperature of the gear reaching the melting point of Acetal. This provides an indirect method of checking the accuracy of existing models for the maximum surface temperatures in polymer gears. Very large discrepancies are found. A simple, alternative model for the average and maximum gear temperatures is developed and is shown to predict the wear transition with far greater accuracy.

Original language	English
Pages (from-to)	1-6
Number of pages	6
Journal	American Society of Mechanical Engineers (Paper)
Publication status	Published - 1 Dec 1992
Event	ASME/STLE Tribology Conference - San Diego, CA, USA Duration: 18 Oct 1992 → 21 Oct 1992

ASJC Scopus subject areas

Mechanical Engineering

Cite this

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title = "Measurement and prediction of the surface temperature in polymer gears and its relationship to gear wear",

abstract = "A design of a four square gear test rig that allows the wear of polymer and composite gears to be monitored continuously during operation is described. The wear behavior of three typical gear materials is examined and it is shown that the wear characteristics differ greatly. For Acetal there is a sharp rise in wear as the transmitted torque is increased, effectively limiting the torque that can be transmitted by an Acetal gear pair. This wear transition is shown to be associated with the maximum surface temperature of the gear reaching the melting point of Acetal. This provides an indirect method of checking the accuracy of existing models for the maximum surface temperatures in polymer gears. Very large discrepancies are found. A simple, alternative model for the average and maximum gear temperatures is developed and is shown to predict the wear transition with far greater accuracy.",

author = "Hooke, {C. J.} and K. Mao and D. Walton and Breeds, {A. R.} and Kukureka, {S. N.}",

year = "1992",

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day = "1",

language = "English",

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journal = "American Society of Mechanical Engineers (Paper)",

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TY - JOUR

T1 - Measurement and prediction of the surface temperature in polymer gears and its relationship to gear wear

AU - Hooke, C. J.

AU - Mao, K.

AU - Walton, D.

AU - Breeds, A. R.

AU - Kukureka, S. N.

PY - 1992/12/1

Y1 - 1992/12/1

N2 - A design of a four square gear test rig that allows the wear of polymer and composite gears to be monitored continuously during operation is described. The wear behavior of three typical gear materials is examined and it is shown that the wear characteristics differ greatly. For Acetal there is a sharp rise in wear as the transmitted torque is increased, effectively limiting the torque that can be transmitted by an Acetal gear pair. This wear transition is shown to be associated with the maximum surface temperature of the gear reaching the melting point of Acetal. This provides an indirect method of checking the accuracy of existing models for the maximum surface temperatures in polymer gears. Very large discrepancies are found. A simple, alternative model for the average and maximum gear temperatures is developed and is shown to predict the wear transition with far greater accuracy.

AB - A design of a four square gear test rig that allows the wear of polymer and composite gears to be monitored continuously during operation is described. The wear behavior of three typical gear materials is examined and it is shown that the wear characteristics differ greatly. For Acetal there is a sharp rise in wear as the transmitted torque is increased, effectively limiting the torque that can be transmitted by an Acetal gear pair. This wear transition is shown to be associated with the maximum surface temperature of the gear reaching the melting point of Acetal. This provides an indirect method of checking the accuracy of existing models for the maximum surface temperatures in polymer gears. Very large discrepancies are found. A simple, alternative model for the average and maximum gear temperatures is developed and is shown to predict the wear transition with far greater accuracy.

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M3 - Conference article

AN - SCOPUS:0027059738

SN - 0402-1215

SP - 1

EP - 6

JO - American Society of Mechanical Engineers (Paper)

JF - American Society of Mechanical Engineers (Paper)

T2 - ASME/STLE Tribology Conference

Y2 - 18 October 1992 through 21 October 1992

ER -

Measurement and prediction of the surface temperature in polymer gears and its relationship to gear wear

Abstract

ASJC Scopus subject areas

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