Tooth Root Stresses of Helical Gear Pairs With Unequal and Offset Face Widths

Volume 8: 11th International Power Transmission and Gearing Conference; 13th International Conference on Advanced Vehicle and Tire Technologies ◽

10.1115/detc2011-48835 ◽

2011 ◽

Author(s):

Carlos H. Wink

Keyword(s):

Load Distribution ◽

Element Model ◽

Helical Gear ◽

The Other ◽

Gear Pair ◽

Tooth Root ◽

Pair Member ◽

Face Width ◽

The Face ◽

Root Stress

In this study, tooth root stresses of helical gear pairs with different combinations of face width increase and offsets were analyzed. Contact face width was kept constant. The variables studied were face width and gear faces offset. The well-known LDP – Load Distribution Program was used to calculate tooth root stresses using a finite element model. The results presented show that the face width increase and offset have a significant influence on tooth root stresses. In some cases, increasing face width of one gear pair member resulted in significant increase of tooth root stress of the other member. For gear pairs with unequal and offset face widths, tooth root stresses were mostly affected when face widths were increased to the same direction of the contact line travel direction.

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Load Distribution and Tooth Root Stress of Modified Cycloid Helical Gear

The Proceedings of Conference of Chugoku-Shikoku Branch ◽

10.1299/jsmecs.2002.40.375 ◽

2002 ◽

Vol 2002.40 (0) ◽

pp. 375-376

Author(s):

Kazuteru NAGAMURA ◽

Kiyotaka IKEJO ◽

Satoru NAKAMURA ◽

Hiroshi OGAWA ◽

Takahiro KISHI

Keyword(s):

Load Distribution ◽

Helical Gear ◽

Tooth Root ◽

Root Stress

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FEM analysis of the load distribution over the face width of helical gear pairs considering deviations, misalignments and deformations

International Conference on Gears 2019 ◽

10.51202/9783181023556-193 ◽

2019 ◽

pp. 193-202

Author(s):

A. Mihailidis ◽

A. Psarros

Keyword(s):

Load Distribution ◽

Fem Analysis ◽

Helical Gear ◽

Face Width ◽

The Face

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Using variable modulus to modify a rack cutter and generate a gear pair

Proceedings of the Institution of Mechanical Engineers Part C Journal of Mechanical Engineering Science ◽

10.1177/09544062211061711 ◽

2022 ◽

pp. 095440622110617

Author(s):

Yang Hsueh-Cheng ◽

Zhong-Wei Huang

Keyword(s):

Helical Gear ◽

Tooth Surface ◽

Gear Pair ◽

Tooth Contact Analysis ◽

Parabolic Profile ◽

Face Width ◽

Variable Modulus ◽

The Face ◽

Helical Gear Pair ◽

Assembly Error

In this paper, two normal imaginary helical rack cutters were first established. One of these cutters is a skewed-rack cutter with an asymmetrical straight edge. The other is a rack cutter with an asymmetric parabolic profile. Second, the gear’s tooth surface of the asymmetric parabolic rack cutter is modified to be barrel-shaped based on a variable modulus. The tooth thickness of the gear is gradually reduced along the face width of the tooth from the middle of the tooth surface. Then the coordinate relationship between the gears’ blanks and the imaginary helical rack cutters was established. Through the differential geometry, crowned and uncrowned helical gear pairs were generated. Because of human factors, when the gear pair is installed, it is easy to cause the gear pair edge contact. It is necessary to add artificial assembly error settings through the tooth contact analysis to investigate the kinematic errors and contact conditions of the crowned and uncrowned helical gear pair. The mathematical models and analysis methods proposed for the crowned imaginary rack cutter using variable modulus should be useful for the design and production of double crowned helical gears with asymmetric parabolic teeth.

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A Methodology to Experimentally Investigate the Impact of Wobble Errors on the Contact Pattern and Static Transmission Error of Helical Gear Pairs

Volume 10: 2019 International Power Transmission and Gearing Conference ◽

10.1115/detc2019-98391 ◽

2019 ◽

Author(s):

Michael Benatar ◽

Michael Handschuh ◽

Ahmet Kahraman ◽

David Talbot

Keyword(s):

Transmission Error ◽

Helical Gear ◽

Experimental Results ◽

Gear Pair ◽

Contact Pattern ◽

Gear Mesh ◽

Face Width ◽

The Face ◽

Static Transmission Error ◽

The Impact

Abstract For a gear pair, both the contact pattern and the transmission error (TE) significantly impact durability and fatigue life. Design and manufacturing processes are often aimed at improving the contact pattern and reducing the overall TE. Other errors, such as runout and wobble, are often induced during the installation of power transmission systems, and they can alter the contact pattern and TE of an otherwise well-designed gear pair. This study provides a methodology to experimentally investigate the impact of wobble errors on the contact pattern and static transmission error (STE) of helical gears. It first provides a description of the modifications to an existing test machine. Next, it describes the gear specifications, preliminary testing matrix, data acquisition and processing procedure, as well as the experimental results obtained with regards to both the contact pattern and STE. The following are observed while describing the experimental results. For a test with no wobble and no runout, the contact pattern remains the same at every rotational position. However, by introducing even a small amount of wobble, the contact will shift from one side of the face width of the gear to the opposite side of the face width of the gear within one revolution. Introduction of wobble may increase the STE and sideband activity around gear mesh harmonics, especially as torque increases. Yet the modest increases in STE and sideband activity seen with the introduction of wobble are not enough to make definitive conclusions. The feasibility of the modified test setup has been demonstrated, and preliminary results have been presented. However, additional data collection should be completed in order to study the impact of runout and wobble on both spur and helical gear pairs with various microgeometry modifications and manufacturing errors.

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An Investigation of the Influence of Shaft Misalignments on Bending Stresses of Helical Gear With Lead Crown

Volume 7: 10th International Power Transmission and Gearing Conference ◽

10.1115/detc2007-35529 ◽

2007 ◽

Cited By ~ 3

Author(s):

M. A. Hotait ◽

D. Talbot ◽

A. Kahraman

Keyword(s):

Load Distribution ◽

Helical Gear ◽

Experimental Results ◽

Distribution Model ◽

Strain Gauges ◽

Gear Teeth ◽

Face Width ◽

The Face ◽

Bending Stresses ◽

Different Levels

In this study, combined influence of shaft misalignments and gear lead crown on the load distribution and tooth bending stresses is investigated experimentally. A set of helical gear pairs having various amounts of lead crown was tested under loaded, low-speed conditions with varying amounts of tightly-controlled shaft misalignments. Gear teeth were instrumented through strips of strain gauges along the face width of gears at the tooth fillet region near the start of active profile. Variations of root strains along the face width were recorded for different levels of shaft misalignments and gear lead crown. At the end, the experimental results were correlated to the predictions of a gear load distribution model and recommendations were made on how much lead crown is optimal for a given misalignment condition.

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