A mechanism-based characterization of the load-independent power loss of dip-lubricated gears

Lucas Hildebrand; Thomas Lohner; Karsten Stahl

doi:10.1177/13506501251315580

A mechanism-based characterization of the load-independent power loss of dip-lubricated gears

Lucas Hildebrand
, Thomas Lohner
, Karsten Stahl

Chair of Machine Elements

Technical University of Munich

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

3 Scopus citations

Abstract

In gearboxes, the transmission of power and motion is accompanied by power losses. Load-independent power losses are particularly relevant at higher circumferential speeds. In the literature, load-independent power losses are classified according to their phenomenological characteristics. The identified types of interaction include churning, windage, squeezing, and impulse. This work employs an experimental and numerical investigation of a dip-lubricated gearbox to characterize the physical mechanisms of load-independent power loss. The gearbox oil flow, the wetting of the gear surface, and pressure and viscous forces acting on the gear surface are investigated and linked to each other. In this manner, the interaction types, churning, windage, and their transitions, are classified based on their physical characteristics.

Original language	English
Pages (from-to)	1382-1400
Number of pages	19
Journal	Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology
Volume	239
Issue number	10
DOIs	https://doi.org/10.1177/13506501251315580
State	Published - Oct 2025

Keywords

Transmission
efficiency
gearbox
load-independent power loss
mechanisms
numerical calculation
oil flow

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10.1177/13506501251315580

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title = "A mechanism-based characterization of the load-independent power loss of dip-lubricated gears",

abstract = "In gearboxes, the transmission of power and motion is accompanied by power losses. Load-independent power losses are particularly relevant at higher circumferential speeds. In the literature, load-independent power losses are classified according to their phenomenological characteristics. The identified types of interaction include churning, windage, squeezing, and impulse. This work employs an experimental and numerical investigation of a dip-lubricated gearbox to characterize the physical mechanisms of load-independent power loss. The gearbox oil flow, the wetting of the gear surface, and pressure and viscous forces acting on the gear surface are investigated and linked to each other. In this manner, the interaction types, churning, windage, and their transitions, are classified based on their physical characteristics.",

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AU - Stahl, Karsten

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N2 - In gearboxes, the transmission of power and motion is accompanied by power losses. Load-independent power losses are particularly relevant at higher circumferential speeds. In the literature, load-independent power losses are classified according to their phenomenological characteristics. The identified types of interaction include churning, windage, squeezing, and impulse. This work employs an experimental and numerical investigation of a dip-lubricated gearbox to characterize the physical mechanisms of load-independent power loss. The gearbox oil flow, the wetting of the gear surface, and pressure and viscous forces acting on the gear surface are investigated and linked to each other. In this manner, the interaction types, churning, windage, and their transitions, are classified based on their physical characteristics.

AB - In gearboxes, the transmission of power and motion is accompanied by power losses. Load-independent power losses are particularly relevant at higher circumferential speeds. In the literature, load-independent power losses are classified according to their phenomenological characteristics. The identified types of interaction include churning, windage, squeezing, and impulse. This work employs an experimental and numerical investigation of a dip-lubricated gearbox to characterize the physical mechanisms of load-independent power loss. The gearbox oil flow, the wetting of the gear surface, and pressure and viscous forces acting on the gear surface are investigated and linked to each other. In this manner, the interaction types, churning, windage, and their transitions, are classified based on their physical characteristics.

KW - Transmission

KW - efficiency

KW - gearbox

KW - load-independent power loss

KW - mechanisms

KW - numerical calculation

KW - oil flow

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A mechanism-based characterization of the load-independent power loss of dip-lubricated gears

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