Potential of process information transfer along the process chain of hybrid components for process monitoring of the cutting process

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Berend Denkena
  • Bernd Arno Behrens
  • Benjamin Bergmann
  • Malte Stonis
  • Jens Kruse
  • Matthias Witt

Research Organisations

External Research Organisations

  • Institut für integrierte Produktion Hannover (IPH)
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Details

Original languageEnglish
Pages (from-to)199-209
Number of pages11
JournalProduction Engineering
Volume15
Issue number2
Early online date19 Feb 2021
Publication statusPublished - Apr 2021

Abstract

The production of hybrid components involves a long process chain, which leads to high investment costs even before machining. To increase process safety and process quality during finishing, it is necessary to provide information about the semi-finished parts geometry for the machining process and to identify defect components at an early stage. This paper presents an investigation to predict variations in dimension and cavities inside the material during cross-wedge rolling of shafts based on measured tool pressure. First, the process is investigated with respect to the variation in diameter for three roll gaps and two materials. Subsequently, features are generated from the hydraulic pressures of the tools and multi-linear regression models are developed in order to determine the resulting diameters of the shaft shoulder. These models show better prediction accuracy than models based on meta-data about set roll gap and formed material. The features are additionally used to successfully monitor the process with regard to the Mannesmann effect. Finally, a sensor concept for a new cross-wedge rolling machine to improve the prediction of the workpiece geometry and a new approach for monitoring machining processes of workpieces with dimensional variations are presented for upcoming studies.

Keywords

    Cross-wedge rolling, Machining, Process chain, Process monitoring

ASJC Scopus subject areas

Cite this

Potential of process information transfer along the process chain of hybrid components for process monitoring of the cutting process. / Denkena, Berend; Behrens, Bernd Arno; Bergmann, Benjamin et al.
In: Production Engineering, Vol. 15, No. 2, 04.2021, p. 199-209.

Research output: Contribution to journalArticleResearchpeer review

Denkena, B, Behrens, BA, Bergmann, B, Stonis, M, Kruse, J & Witt, M 2021, 'Potential of process information transfer along the process chain of hybrid components for process monitoring of the cutting process', Production Engineering, vol. 15, no. 2, pp. 199-209. https://doi.org/10.1007/s11740-021-01023-9
Denkena, B., Behrens, B. A., Bergmann, B., Stonis, M., Kruse, J., & Witt, M. (2021). Potential of process information transfer along the process chain of hybrid components for process monitoring of the cutting process. Production Engineering, 15(2), 199-209. https://doi.org/10.1007/s11740-021-01023-9
Denkena B, Behrens BA, Bergmann B, Stonis M, Kruse J, Witt M. Potential of process information transfer along the process chain of hybrid components for process monitoring of the cutting process. Production Engineering. 2021 Apr;15(2):199-209. Epub 2021 Feb 19. doi: 10.1007/s11740-021-01023-9
Denkena, Berend ; Behrens, Bernd Arno ; Bergmann, Benjamin et al. / Potential of process information transfer along the process chain of hybrid components for process monitoring of the cutting process. In: Production Engineering. 2021 ; Vol. 15, No. 2. pp. 199-209.
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abstract = "The production of hybrid components involves a long process chain, which leads to high investment costs even before machining. To increase process safety and process quality during finishing, it is necessary to provide information about the semi-finished parts geometry for the machining process and to identify defect components at an early stage. This paper presents an investigation to predict variations in dimension and cavities inside the material during cross-wedge rolling of shafts based on measured tool pressure. First, the process is investigated with respect to the variation in diameter for three roll gaps and two materials. Subsequently, features are generated from the hydraulic pressures of the tools and multi-linear regression models are developed in order to determine the resulting diameters of the shaft shoulder. These models show better prediction accuracy than models based on meta-data about set roll gap and formed material. The features are additionally used to successfully monitor the process with regard to the Mannesmann effect. Finally, a sensor concept for a new cross-wedge rolling machine to improve the prediction of the workpiece geometry and a new approach for monitoring machining processes of workpieces with dimensional variations are presented for upcoming studies.",
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