An Analytic Expression for the Inverse Involute

Rosado, Alberto López; Muñoz, Federico Prieto; Fernández, Roberto Álvarez

doi:10.1155/2019/3586012

Cited by 2 publications

(1 citation statement)

References 9 publications

(19 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…genutzt (Klocke und Brecher, 2017). Die Inverse der Involut-Funktion muss dabei iterativ oder mittels analytischer Approximationen (Rosado et al, 2019) E IM vorzuziehen. Fujita et al (1976) und Greiner (1990) beschreiben, dass wegen der Ölverteilung infolge der ÖZI beide Varianten gleichberechtigt sind.…”

Section: Simulationsstudieunclassified

Zur numerischen Simulation der Ölstrahl-Zahnrad-Interaktion in Flugtriebwerken

Keller¹

2022

View full text Add to dashboard Cite

The geared turbofan engine is seen as a short-term response to economic, ecological and societal demands for efficient and quiet propulsion systems in civil aviation. For this jet engine architecture, optimization of the oil system in the integral ultrahigh-power gearbox is essential, in particular with regard to its cooling function. Previous studies have shown that the oil distribution over the tooth flanks resulting from the oil jet-gear interaction (OGI) plays an important role for the cooling effect achieved by means of oil-jet lubrication. However, to date there is no suitable analytical or experimental methodology for quantitative analysis of the OGI, which is why its characterization is incomplete. This work aims to address this point. By means of computational fluid dynamics (CFD), the OGI is made accessible. Here, the grid-based volume of fluid (VOF) method and, for the first time, the particle-based smoothed particle hydrodynamics (SPH) method are used. The latter promises to overcome limitations of grid-based methods in modeling the gear motion -in particular the gear meshing -and the complex oil/air two-phase flow.

show abstract

Section: Simulationsstudieunclassified

Zur numerischen Simulation der Ölstrahl-Zahnrad-Interaktion in Flugtriebwerken

Keller¹

2022

View full text Add to dashboard Cite

show abstract

Calculation of the inverse involute function and application to measurement over pins

Zhou,

Wu,

Chen

et al. 2024

Meas. Sci. Technol.

View full text Add to dashboard Cite

Measurement over pins plays a crucial role in ensuring the quality in gear manufacturing, which requires the evolution of the inverse involute function. In this paper, an efficient algorithm for calculating the inverse involute function is proposed. Firstly, the initial approximate solution of the pressure angle near 0 rad is established by using Padé approximation and one step of Schröder iteration. Then the involute equation is transformed into another form by introducing a variable transformation, and the initial approximate solution of the pressure angle near π/2 rad is constructed by using the same method. The piecewise initial approximate solution over the entire interval of expanded angle is obtained by combining these solutions. The accuracy of the initial approximate solution can be significantly improved by using one step of Schröder iteration again. A numerical example of two-pin measurement is presented to show the superiority of our method over traditional iterative approach. The algorithm has high efficiency and accuracy, and is a useful tool for designers to accurately calculate the gear system.

show abstract

An Analytic Expression for the Inverse Involute

Cited by 2 publications

References 9 publications

Zur numerischen Simulation der Ölstrahl-Zahnrad-Interaktion in Flugtriebwerken

Zur numerischen Simulation der Ölstrahl-Zahnrad-Interaktion in Flugtriebwerken

Calculation of the inverse involute function and application to measurement over pins

Contact Info

Product

Resources

About