New methods for the calculation of the load capacity of bevel and hypoid gears

Christian Wirth; Bernd Robert Höhn; Ch Braykoff

New methods for the calculation of the load capacity of bevel and hypoid gears

Christian Wirth, Bernd Robert Höhn, Ch Braykoff

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

Afailure mode called "flank breakage" is increasingly observed in different applications of cylindrical and bevel gears. These breakages typically start from the active flank approximately in the middle of the active tooth height and propagate to the tooth root of the unloaded flank side. Crack initiation can be localized below the surface in the region between case and core of surface hardened gears. This failure mode can neither be explained by the known mechanism of tooth root breakage nor by the mechanism of pitting. Even bevel gears in truck and bus applications are at the risk to suffer from subsurface fatigue, if the optimum utilization of the material should be achieved. In this case a balance between the flank breakage and pitting risk has to be found. The purpose of this paper is to describe a new material, physically based calculation method to evaluate the risk of flank breakage versus the risk of pitting. The verification of this new method by experimental tests is exemplarily shown.

Original language	English
Title of host publication	American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA
Pages	211-231
Number of pages	21
State	Published - 2012
Externally published	Yes
Event	American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA - Dearborn, MI, United States Duration: 28 Oct 2012 → 30 Oct 2012

Publication series

Name	American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA

Conference

Conference	American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA
Country/Territory	United States
City	Dearborn, MI
Period	28/10/12 → 30/10/12

Cite this

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title = "New methods for the calculation of the load capacity of bevel and hypoid gears",

abstract = "Afailure mode called {"}flank breakage{"} is increasingly observed in different applications of cylindrical and bevel gears. These breakages typically start from the active flank approximately in the middle of the active tooth height and propagate to the tooth root of the unloaded flank side. Crack initiation can be localized below the surface in the region between case and core of surface hardened gears. This failure mode can neither be explained by the known mechanism of tooth root breakage nor by the mechanism of pitting. Even bevel gears in truck and bus applications are at the risk to suffer from subsurface fatigue, if the optimum utilization of the material should be achieved. In this case a balance between the flank breakage and pitting risk has to be found. The purpose of this paper is to describe a new material, physically based calculation method to evaluate the risk of flank breakage versus the risk of pitting. The verification of this new method by experimental tests is exemplarily shown.",

author = "Christian Wirth and H{\"o}hn, {Bernd Robert} and Ch Braykoff",

year = "2012",

language = "English",

isbn = "9781627481342",

series = "American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA",

pages = "211--231",

booktitle = "American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA",

note = "American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA ; Conference date: 28-10-2012 Through 30-10-2012",

}

Wirth, C, Höhn, BR & Braykoff, C 2012, New methods for the calculation of the load capacity of bevel and hypoid gears. in American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA. American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA, pp. 211-231, American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA, Dearborn, MI, United States, 28/10/12.

New methods for the calculation of the load capacity of bevel and hypoid gears. / Wirth, Christian; Höhn, Bernd Robert; Braykoff, Ch.
American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA. 2012. p. 211-231 (American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - New methods for the calculation of the load capacity of bevel and hypoid gears

AU - Wirth, Christian

AU - Höhn, Bernd Robert

AU - Braykoff, Ch

PY - 2012

Y1 - 2012

N2 - Afailure mode called "flank breakage" is increasingly observed in different applications of cylindrical and bevel gears. These breakages typically start from the active flank approximately in the middle of the active tooth height and propagate to the tooth root of the unloaded flank side. Crack initiation can be localized below the surface in the region between case and core of surface hardened gears. This failure mode can neither be explained by the known mechanism of tooth root breakage nor by the mechanism of pitting. Even bevel gears in truck and bus applications are at the risk to suffer from subsurface fatigue, if the optimum utilization of the material should be achieved. In this case a balance between the flank breakage and pitting risk has to be found. The purpose of this paper is to describe a new material, physically based calculation method to evaluate the risk of flank breakage versus the risk of pitting. The verification of this new method by experimental tests is exemplarily shown.

AB - Afailure mode called "flank breakage" is increasingly observed in different applications of cylindrical and bevel gears. These breakages typically start from the active flank approximately in the middle of the active tooth height and propagate to the tooth root of the unloaded flank side. Crack initiation can be localized below the surface in the region between case and core of surface hardened gears. This failure mode can neither be explained by the known mechanism of tooth root breakage nor by the mechanism of pitting. Even bevel gears in truck and bus applications are at the risk to suffer from subsurface fatigue, if the optimum utilization of the material should be achieved. In this case a balance between the flank breakage and pitting risk has to be found. The purpose of this paper is to describe a new material, physically based calculation method to evaluate the risk of flank breakage versus the risk of pitting. The verification of this new method by experimental tests is exemplarily shown.

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T3 - American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA

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BT - American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA

T2 - American Gear Manufacturers Association Fall Technical Meeting 2012, AGMA

Y2 - 28 October 2012 through 30 October 2012

ER -

New methods for the calculation of the load capacity of bevel and hypoid gears

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