Publication detail

Determination of transmission error in spur gear by numerical approach

BARTOŠOVÁ, D. OTIPKA, V. ŘEHÁK, K.

English title

Determination of transmission error in spur gear by numerical approach

Type

conference paper

Language

en

Original abstract

The problem of transmission error is nowadays a very discussed topic in the field of vibration and noise generation. When tooth designing the numerical simulations can be used to minimize the transmission error, which fundamentally influences the gearbox behavior. For this purpose, a parametric model of straight tooth spur was developed. Subsequently, a calculation approach was used using the finite element method to determine the static error of the transmission at various load states, axial distance variations, and tooth shape elevation modifications. Based on the obtained results, it is possible to find a suitable type of tooth for the given operation conditions.

English abstract

The problem of transmission error is nowadays a very discussed topic in the field of vibration and noise generation. When tooth designing the numerical simulations can be used to minimize the transmission error, which fundamentally influences the gearbox behavior. For this purpose, a parametric model of straight tooth spur was developed. Subsequently, a calculation approach was used using the finite element method to determine the static error of the transmission at various load states, axial distance variations, and tooth shape elevation modifications. Based on the obtained results, it is possible to find a suitable type of tooth for the given operation conditions.

Keywords in English

gear, transmission error, static transmission error, finite element method, tip relief.

Released

07.09.2018

ISSN

2345-0533

Book

Vibroengineering PROCEDIA

Volume

19

Pages from–to

284–288

Pages count

5

BIBTEX


@inproceedings{BUT150537,
  author="Daniela {Bartošová} and Václav {Otipka} and Kamil {Řehák},
  title="Determination of transmission error in spur gear by numerical approach",
  booktitle="Vibroengineering PROCEDIA ",
  year="2018",
  volume="19",
  month="September",
  pages="284--288",
  issn="2345-0533"
}