Tooth surface design of spiral bevel gears based on meshing performances and work offset

Xue Mei Cao; Zong De Fang; Hao Xu; Zi Bing Zhu

Tooth surface design of spiral bevel gears based on meshing performances and work offset

Xue Mei Cao, Zong De Fang, Hao Xu, Zi Bing Zhu

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Three meshing points on the tooth surface were designed according to the contact pattern and transmission errors. The meshing quality was controlled exactly through control of these three meshing points. To meet different processing demands, the processing parameters of pinion was redesigned according to the given value of work offset, thus maintaining the magnitude of transmission error with little variation of contact pattern. In the end, a pair of gears was designed by Gleason software and this approach respectively, showing the consistency of these two designs by comparing the tooth surface, contact pattern and transmission errors.

Original language	English
Pages (from-to)	189-194
Number of pages	6
Journal	Hangkong Dongli Xuebao/Journal of Aerospace Power
Volume	23
Issue number	1
State	Published - Jan 2008

Keywords

Aerospace propulsion system
Contact pattern
Spiral bevel gears
Transmission errors
Work offset

Cite this

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title = "Tooth surface design of spiral bevel gears based on meshing performances and work offset",

abstract = "Three meshing points on the tooth surface were designed according to the contact pattern and transmission errors. The meshing quality was controlled exactly through control of these three meshing points. To meet different processing demands, the processing parameters of pinion was redesigned according to the given value of work offset, thus maintaining the magnitude of transmission error with little variation of contact pattern. In the end, a pair of gears was designed by Gleason software and this approach respectively, showing the consistency of these two designs by comparing the tooth surface, contact pattern and transmission errors.",

keywords = "Aerospace propulsion system, Contact pattern, Spiral bevel gears, Transmission errors, Work offset",

author = "Cao, {Xue Mei} and Fang, {Zong De} and Hao Xu and Zhu, {Zi Bing}",

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AU - Cao, Xue Mei

AU - Fang, Zong De

AU - Xu, Hao

AU - Zhu, Zi Bing

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N2 - Three meshing points on the tooth surface were designed according to the contact pattern and transmission errors. The meshing quality was controlled exactly through control of these three meshing points. To meet different processing demands, the processing parameters of pinion was redesigned according to the given value of work offset, thus maintaining the magnitude of transmission error with little variation of contact pattern. In the end, a pair of gears was designed by Gleason software and this approach respectively, showing the consistency of these two designs by comparing the tooth surface, contact pattern and transmission errors.

AB - Three meshing points on the tooth surface were designed according to the contact pattern and transmission errors. The meshing quality was controlled exactly through control of these three meshing points. To meet different processing demands, the processing parameters of pinion was redesigned according to the given value of work offset, thus maintaining the magnitude of transmission error with little variation of contact pattern. In the end, a pair of gears was designed by Gleason software and this approach respectively, showing the consistency of these two designs by comparing the tooth surface, contact pattern and transmission errors.

KW - Aerospace propulsion system

KW - Contact pattern

KW - Spiral bevel gears

KW - Transmission errors

KW - Work offset

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JO - Hangkong Dongli Xuebao/Journal of Aerospace Power

JF - Hangkong Dongli Xuebao/Journal of Aerospace Power

IS - 1

ER -

Tooth surface design of spiral bevel gears based on meshing performances and work offset

Abstract

Keywords

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